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WORLD ALLIANCE FOR DECENTRALIZED ENERGY
In Association With
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September-October 2013
DENMARK’S CLEVER USE OF COGEN IN EUROPE’S CONTINUALLY EVOLVING ENERGY MARKET n IT’S BOOM TIME FOR THE SERVICING AND MAINTENANCE
OF INDUSTRIAL GAS TURBINES n SOUTH KOREAN PETROCHEMCIAL FACILITY BENEFITS BY FIRING ITS COGENERATION PLANT WITH A WASTE BY-PRODUCT
n ONE COMPANY HAS TAKEN A REVOLUTIONARY APPROACH TO HYDROGEN FUEL CELLS
WW
W.C
OSP
P.CO
M
ASEAN looks to decentralized energy
to meet demand
1309cospp_C1 1 9/9/13 11:25 AM
Online and On the Go Cogeneration On-site Power Production is the media you need to stay updated with the cogeneration and
cleaner, effcient distributed energy industry.
STAY UPDATEDwww.cospp.com
Easy Access, Rich Media Improves Readers’ Digital Experience:
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Nearly 2/3 of our readers are already subscribed to our digital magazine, the new digital edition
will make a difference in your business AND the business of cleaner energy.
So get the most of our magazine and subscribe online!
The new digital edition will make a difference in your business
AND the business of cleaner energy. So stayed updated with COSPP!
1309cospp_C2 2 9/9/13 11:25 AM
For more information, enter 1 at COSPP.hotims.com
1309cospp_1 1 9/9/13 11:26 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com2
Contents Volume 14 • Number 5
September-October 2013
16
16 Launch then learn: On-site power development in ASEAN The impetus behind decentralized energy development in the ASEAN region is
gathering pace. We look at the many opportunities that exist in helping to secure supply,
counterbalanced by the challenges that remain.
By Elisa Wood
22 Denmark’s ‘smart’ use of cogeneration Denmark is acknowledged as a frontrunner in forming adopting liberalized rules and
regulations in its energy sector. It also ranks high in its innovative use of its large CHP feet.
This is perfectly by Skagen Varmeværk, a district heating company.
By Anders Ahnger, Bent Iversen and Mikael Frejman
28 Future’s bright for IGT service & maintenance sector Stable growth is predicted for the global power plant services and maintenance market
over the next fve years. We fnd out if this is refected in the services and maintenance
market serving the decentralized energy market, in particular the industrial gas
turbines (IGT).
By Dr. Heather Johnstone
34 CHP at petrochemical site: Fuel fexibility makes sense Heavy-duty gas turbines can enable CHP plants to burn process by-products that might
otherwise be a liability. We present the design and operational experience of one such
CHP facility at a petrochemical complex, located in South Korea.
By Yoon-Ho Lee, Michel Moliere and Heung-Yub Ahn
38 A revolutionary approach to hydrogen fuel cell technology A UK-based clean energy frm’s revolutionary approach to hydrogen fuel cell technology,
translates into cheaper, smaller and more durable fuel cells We explore the science behind
the technology.
By Dr. Andrew Creeth
Features
WORLD ALLIANCE FOR DECENTRALIZED ENERGY
In Association With
September-October 2013
DENMARK’S CLEVER USE OF COGEN IN EUROPE’S CONTINUALLY EVOLVING ENERGY MARKET n IT’S BOOM TIME FOR THE SERVICING AND MAINTENANCE
OF INDUSTRIAL GAS TURBINES n SOUTH KOREAN PETROCHEMCIAL FACILITY BENEFITS BY FIRING ITS COGENERATION PLANT WITH A WASTE BY-PRODUCT
n ONE COMPANY HAS TAKEN A REVOLUTIONARY APPROACH TO HYDROGEN FUEL CELLS
ASEAN looks to decentralized energy
to meet demand
Cover photograph: A bustling street at night in Bangkok. In the ASEAN region, Thailand is
seen as leading the charge in decentralized energy development
to secure supply and meet power demand. See the feature article
staring on p.16. PHOTO: SUPERSTOCK
1309cospp_2 2 9/9/13 11:26 AM
www.cospp.com
ISSN 1469–0349
Chairman: Frank T. Lauinger
President/CEO: Robert F. Biolchini
Chief Financial Offcer: Mark C. Wilmoth
Group Publisher: Glenn Ensor
Associate Publisher: Dr. Heather Johnstone
Managing Editor: Dr. Jacob Klimstra
Production Editor: Mukund Pandit
Consulting Editor: David Sweet
Contributing Editor Steve Hodgson
Design: Kajal Patel
Production Coordinator: Kimberlee Smith
Sales Manager: Natasha Cole
Advertising:
Natasha Cole on +1 713 621 9720
Editorial/News:
e-mail: [email protected]
Published by PennWell International Ltd,
The Water Tower,
Gunpowder Mill, Powdermill Lane,
Waltham Abbey, Essex EN9 1BN, UK
Tel: +44 1992 656 600
Fax: +44 1992 656 700
e-mail: [email protected]
Web: www.cospp.com
Published in association with the World Alliance for Decentralized Energy (WADE)
© 2013 PennWell International Publications Ltd. All rights reserved. No part of this publication may be reproduced in any form or by any means, whether electronic, mechanical or otherwise including photocopying, recording or any information storage or retrieval system without the prior written consent of the Publishers. While every attempt is made to ensure the accuracy of the information contained in this magazine, neither the Publishers, Editors nor the authors accept any liability for errors or omissions. Opinions expressed in this publication are not necessarily those of the Publishers or Editor.
Subscriptions: Copies of the magazine are circulated free to qualifed professionals who complete one of the printed circulation forms included in the magazine. Extra copies of these forms may be obtained from the publishers. The magazine may also be obtained on subscription; the price for one year (six issues) is US$133 in Europe, US$153 elsewhere, including air mail postage. Digital copies are available at US$60. To start a subscription call Omeda Communications at +1 847 559 7330. Cogeneration and On-Site Power Production is published six times a year by Pennwell Corp., The Water Tower, Gunpowder Mill, Powdermill Lane, Waltham Abbey, Essex EN9 1BN, UK, and distributed in the USA by SPP at 75 Aberdeen Road, Emigsville, PA 17318-0437. Periodicals postage paid at Emigsville, PA. POSTMASTER: send address changes to Cogeneration and On-Site Power Production, c/o P.O. Box 437, Emigsville, PA 17318.
Reprints: If you would like to have a recent article reprinted for a conference or for use as marketing tool, please contact Rhonda Brown. Email: [email protected]. Tel +1 866 879 9144, extn 194 or direct line +1 219-878-6094.
Printed in the UK by Williams Press Ltd on elemental chlorine-free paper from sustainable forests.
Member, BPA Worldwide
www.cospp.com
22 28
38
4 Editor’s Letter
6 Insight
8 WADE Comment
10 News update
42 WADE pages
47 Diary
Regulars
1309cospp_3 3 9/9/13 11:26 AM
Editor’s Letter
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com4
Equations and opinions
A magazine such as Cogeneration
& On-Site Power Production
(COSPP) is supposed to have
value. That means it should
serve you, its readers, with useful content.
Value can originate from the pleasure of
reading interesting stories, from information
on products and suppliers, and from useful
knowledge about local power generators.
However, business life is so hectic these days
and so much information is offered constantly,
that a tendency exists to skip all ‘nice to know’
information and to concentrate only on ‘need
to know’ information. The big question always
is, what is nice and what is needed?
I remember the time as a young engineer, I
tried to read almost any magazine and book
on engineering that I could get my hands on. I
hoped all that information would help me fnd
the right answers, and even the right questions.
I had and still have a very high esteem for
people who have the skill to write an article.
But it often took a lot of effort to understand
the content and the associated value of the
articles.
Only when I started to carry out my own
technical research did the situation change.
It is very peculiar, but when you are urgently
looking for an answer, digesting literature can
happen quickly. It appears that the brain can
automatically select what is needed and
ignore what can be skipped. Nevertheless, the
right literature has to exist, and COSPP has and
will play an important role in this.
The big question now is, what should a
good article for COSPP look like. Recently, a
friendly and helpful experienced engineer
told me that using ‘formulas’ in an article
would immediately turn off the bulk of modern
readers. Many people are apparently allergic
to mathematics.
And yes, I agree with him: a ‘formula’ by itself
is like a magic sentence, a charm, but can
lead to irritations. A good article is therefore not
based on ‘formulas’. However, good articles
can feature technical equations that illustrate
relationships between quantities. If the author
has explained what the background of the
equation is and how it can be used, preferably
with a diagram illustrating the relationship,
it can be an eye opener. Equations can, for
example, help you to calculate the fnancial
benefts of on-site power generation. Physical
relationships can also tell you why electricity
supply systems beneft from local generation.
Therefore, dear prospective authors, please
do not hesitate to insert helpful equations in
your articles. Good articles are more than an
opinion: good articles explain and teach.
Why am I writing this? It is partly a result of
being happy with a magazine dedicated to
distributed generation-related subjects, but
also partly due to some irritation. During recent
discussions with policy makers in Brussels on
the benefts of local generation, they told me
that what I said was nothing more than an
opinion. In order to get support for my opinion,
I had to show them that a large proportion of
the population supported me. When I tried
to explain that my reasoning was based on
scientifcally-proven facts, they still answered:
‘That is only your opinion’.
One sees the same thing happening in
discussion groups on Linked-In and other
social media. Solid knowledge is replaced by
feelings and opinions. Fortunately, we have
this magazine, in which we can exchange
valuable information and help to provide
useful knowledge for further expansion and
optimization of cogeneration and on-site
power production.
Jacob Klimstra
Managing Editor
P.S. Don’t forget to visit www.cospp.com to
see regular news updates, the current issue
of the magazine in full, and an archive of
articles from previous issues. It’s the same
website address to sign-up for our fortnightly
e-newsletter too.
Dr. Jacob Klimstra
1309cospp_4 4 9/9/13 11:26 AM
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com6
Insight
Building ‘cathedrals’ gives way to mass- produced power sources
Among three themes
recently asserted by
energy guru Amory Lovins
as affecting the US energy
scene is that momentum is shifting,
not just from fossil-fuelled power plants
to renewables, but from centralized to
distributed generation.
Writing in the summer issue of
its Solutions Journal, Lovins, the
cofounder and now Chairman
Emeritus of the infuential Rocky
Mountain Institute, likens traditional
power station development projects to
building a cathedral, and distributed
generation units to mass-produced,
manufactured products. He is talking
mainly about solar photovoltaic (PV)
panels, but the analogy works almost
as well for slightly larger distributed
generation technologies, including
CHP.
The point has been made before –
that although the emergence of utility-
scale large wind farms garner a great
deal of attention, the parallel growth
of building-integrated solar panels,
CHP schemes feeding industrial sites
and commercial buildings, and new
district energy schemes, is more
a revolution in size, location and
ownership of generating plant than
simply from fossil fuels to renewable
sources of energy.
With giant forest fres threatening
power (and water) transmission to
the city of San Francisco at the time
of writing, the need for population
centres and industry to be less reliant
on remote, centralized electricity
generation is emphasized further. US
power grids tend to be highly reliable,
but the consequences of occasional
failure can be enormous.
Lovins’ other two themes are that
progress is fnally being made in terms
of the effciency with which energy is
used, both in buildings and in cars;
and that renewable projects of all sizes
are making serious gains, not only in
world-leading Germany but also in
the US. Lovins sees total US electricity
consumption steadily shrinking in the
future, rather than following traditional
growth patterns as spending on utility
energy-effciency programmes grows
to serious levels.
Meanwhile, prices of solar power
units have fallen to a point where the
technology can undercut power even
from modern gas-fred power plants.
Solar power accounted, says Lovins,
for 49% of new generating capacity
added to US grids in the frst quarter
of this year.
While new ‘cathedrals’ take lots of
money and time to build, Chinese
PV panel factories are churning
out products 24/7 and solar power
prices are falling steadily. But it’s not
all about size and number of units –
Lovins suggests that local ownership
patterns are crucial too. Denmark’s
30-year transition from centralized
coal-fred power plants to distributed
wind and cogeneration plants came
about partly because most of these
units are owned either by local
farmers or communities. Likewise,
half of the renewables schemes in
Germany are owned by its citizens or
communities.
Aside from renewables, district
energy schemes are usually owned,
if not operated by, local government
units with a brief to lower energy costs
for their own buildings and, in some
cases, for publicly-owned housing,
alongside local business premises.
Operators of campus-based schemes
are in direct control of their own
energy costs.
It’s certainly true, particularly in
Europe, that over recent years the
green agenda has favoured the
development of electricity-generating
renewables much more than energy
effciency, even though the impact
using (and generating) energy at
higher effciencies can have a similar
impact on carbon emissions. And
small-scale, high-effciency plants are
more easily fnanced, quicker to build,
and deliver considerable to benefts
to electricity grids.
This last advantage is diffcult to
quantify or monetize, but operators
of power grids fed from multiple
small sources with a variety of
technologies have a more resilient
power distribution system. Citizens
of San Francisco may be about to
experience the opposite of this.
Lovins is not complacent, though,
suggesting that the battle for what
he calls a more effcient, diverse,
distributed, renewable electricity
system is far from won. Plenty of
barriers still need to be dismantled to
enable the full transformation.
Steve Hodgson
Contributing Editor
Steve Hodgson
1309cospp_6 6 9/9/13 11:26 AM
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com8
Comment
Given that gridlock in
the US Congress and
on the energy policy
scene in Washington
seems to be a semi-permanent state,
a great deal of the activity has been
shifted to the states that are not as
politically tied in knots.
The energy supply problems
experienced in the Northeast of
the US require immediate action to
make sure that the electric grid is
more resilient in the event another
weather event akin to Hurricane
Sandy should strike the region,
and cannot wait for the gridlock in
Washington to be resolved. Thus,
much of the work on policies and
programmes that can provide a
solution has shifted to these states.
That is why the most recent
meeting of the National Association
of Regulatory Utility Commissioners
(NARUC) was of great interest to
policy makers, as well as those
seeking creative solutions and
actions to the energy policy gridlock.
NARUC brings together energy
regulators from around the US, as well
as representatives from international
regulatory bodies for a dialogue on
the issues of the day. The Summer
Meeting included a great deal of
discussion of subjects relevant to the
decentralized energy community,
such as microgrids, integration of
renewable energy resources and
distributed generation.
Of particular interest was a
discussion on the ‘Implications of
Distributed Energy Resources on
Regulatory Policies’ that addressed
a report from the Critical Consumer
Issues Forum (CCIF), a group that
brings together state regulators,
consumer advocates and utilities.
As the cost of solar PV has
dropped precipitously and rooftop
installations have soared, this has
given rise to a number of concerns
about the impact on the utility
business model, especially where
these distributed resources are
allowed to be ‘net metered’ with the
grid. While distributed generation
offers a number of system and
customer benefts, such as
providing a cleaner source of power
generation and a more diversifed
portfolio of generation assets that
can provide greater system reliability
and security, many utilities view this
as a competitive threat. The CCIF
report identifed 21 principles in the
areas of fnancial and regulatory
issues; market development and
deployment issues; consumer issues;
and safety, reliability and system
planning issues. One of the fnancial
and regulatory principles states:
DER incentives should be based
on clear policy objectives and
periodically reevaluated based
on market conditions. Once the
underlying policy objectives are
met or as the technologies become
cost-competitive or cost-prohibitive,
such incentives should be modifed
or discontinued.
The report further clarifes that
incentives include ‘any net metering
arrangement that provides benefts
exceeding the underlying value of
the energy received from that DER’.
Interestingly, just days before the
NARUC session, Fitch, which provides
credit ratings and analyses of
utilities, sounded the warning bells
over net metering in a report that
states that the destabilization of the
power markets in Spain from feed-in
tariffs and net metering incentives is
a “cautionary tale” for the US.
So with existing incentives for
distributed generation under fre from
regulators, consumer advocates,
utilities and rating agencies, the
future of net metering is uncertain,
even though these policies are
proven solutions to creating a more
diverse and robust energy delivery
system that can respond to storms
and other events. CHP systems are
typically either ineligible for net
metering or severely restricted in
how they may participate. If we want
to be ready for the next Hurricane
Sandy, the states would be wiser to
consider how to expand incentives
so that all distributed resources can
participate, rather than engage in a
dialogue on their demise.
David Sweet
Executive Director, WADE
David Sweet
Gridlock and the grid
1309cospp_8 8 9/9/13 11:26 AM
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News
Send your news to Cogeneration and On-Site Power Production: e-mail: [email protected]
News
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com10
The UK’s frst carbon neutral
laboratory is to be built at
the University of Nottingham
in England and is set to cost
around $24m.
A project team including
contractor Morgan Sindall and
project manager Gleeds will
start construction of the 4500
sq m facility this autumn and
the laboratory is to powered by
renewable sources including
solar power and sustainable
biomass.
The GlaxoSmithKline Carbon
Neutral Laboratory of Sustain-
able Chemistry will provide
chemistry laboratory facilities
for 100 researchers and is be-
ing part-funded by GlaxoSmith-
Kline. It is expected that the
laboratory will become carbon
neutral after 25 years of opera-
tion.
The university claims that
excess energy created by the
building will provide enough
carbon credits over 25 years to
pay back the carbon used in
its construction.
UK’S FIRST CARBON NEUTRAL LABORATORY ANNOUNCED
A research report by the
American Council for an
Energy Effcient Economy
states that utilities could
reap substantial benefts
by investing in and encour-
aging new combined heat
and power systems.
It says the major benefts
CHP offers to utilities include
cost-effectiveness, fast de-
ployment, and loss avoid-
ance and reduced strain on
transmission and distribu-
tion systems.
The report states that
policy and regulatory
changes that would allow
or encourage utilities to take
advantage of these ben-
efts include establishing an
energy effciency resource
standard or other portfolio
standard that prioritizes CHP
as a critical resource, and
allowing utilities to earn cost
recovery and economic re-
turns on investments in CHP,
as allowed for other genera-
tion resources.
The report also advises
encouragement of utili-
ties to offer dedicated CHP
programmes within overall
energy effciency program-
ming, and offering perfor-
mance incentives for excep-
tional effciency results.
Report urges utilities to invest in CHP technology
GE, Nexterra and the University
of British Columbia (UBC) have
combined to produce the frst
renewable waste combined
heat and power system in
North America.
The system involves taking
wood fuel and converting it to
synthetic gas, which is burned
to produce heat. GE asked
Nexterra to produce a syngas
that burns cleanly enough
to fuel its Jenbacher high-
effciency internal combustion
engines, and that is the core
process at the centre of the
facility.
Combining Nexterra’s
proprietary gasifcation and
syngas conditioning process
with the Jenbacher creates a
system capable of producing
both heat and electricity.
Nexterra spent four years
at its facility in Kamloops
developing a way to crack tars
from syngas. After more than
5000 hours of successful small-
scale trials, GE and Nexterra
approached UBC to host a
larger demonstration project.
Dubbed the Bioenergy
Research and Demonstration
Facility, the equipment is
housed in a solid wood
building on UBC’s Vancouver
campus. Fuelled by renewable
syngas, the Jenbacher can
generate 2 MW of electricity
and 3 MW of thermal energy,
enough to displace up to
12% of UBC’s natural gas
consumption.
Once the system logs
more runtime, GE said that
it will begin promoting
the cogeneration system
worldwide.
GE is now working with
Nexterra to explore the use of
syngas from other renewable
sources, such as biosolids from
sewage treatment plants, to
fuel the Jenbacher.
GE IN INNOVATIVE PARTNERSHIP IN VANCOUVER
A new accident and
emergency department is to
be facilitated with on-site and
combined heat and power
technology.
Balfour Beatty Engineering
Services has signed a £14m
($21m) contract with North
West London Hospitals NHS
Trust to construct the facility in
Harrow.
The building has been
designed to be highly
sustainable and features
such as a rooftop bio-diversity
garden and an array of power
providing photo-voltaic cells,
in tandem with the combined
heat and power unit.
The building work is due to
be completed next April.
LONDON HOSPITAL DEPARTMENT TO BE POWERED ON-SITE
1309cospp_10 10 9/9/13 11:26 AM
News
www.cospp.com Cogeneration & On–Site Power Production | September-October 2013 11
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As part of the drive for
greater energy effciency,
Saudi Aramco has signed
three new energy conversion
agreements with a Japanese-
Saudi consortium to build and
operate cogeneration power
plants in the kingdom.
The agreements for the
cogeneration plants were
signed with Marubeni Corp.
and JGC Corp. of Japan
and Saudi Aljomaih Energy &
Water Co.
The plants will generate
a total of 900 MW of power
and 1500 tonnes of steam per
hour when they commence
operation in 2016 at the
company’s facilities at Abqaiq,
Hawiya and Ras Tanura
(pictured right).
Aramco did not disclose
the value of the deals but
said it would hold a 50%
stake in the plants, which will
have a thermal effciency of
more than 80%, compared
with conventional generation
thermal effciency of 40-50%.
JAPANESE-SAUDI CONSORTIUM TO BUILD COGEN PLANTS
Siemens has won an order to
deliver eight SGT-800 industrial
gas turbines to supply heat
and power for the $20bn Yamal
liqufed natural gas production
plant in Siberia.
Located onshore, the Yamal
cogeneration plant will power
the giant LNG project, which
develops and liquefes the
abundant wet gas ressouces
of the Yamal-Nenets regional.
The order was placed by
Technopromexport (TPE), a
Russian engineering company
wholly-owned by Rostec State
Corporation. TPE had previously
won an EPC contract in a
competitive tender process
to build the Yamal LNG power
plant with an electric capacity
of 376 MW, reports Gas to Power
Journal.
Siemens’ scope of
supply includes the design,
manufacture, factory testing,
delivery, installation and
commissioning of eight SGT-
800 industrial gas turbines, four
of which equipped with waste
head recovery units, and nine
additional step-up transformers.
SIEMENS SECURES DEAL TO EQUIP SIBERIAN LNG PROJECT
1309cospp_11 11 9/9/13 11:26 AM
News
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com12
Trans Gulf has emerged from
a rigorous process to win the
contract to develop Empower’s
new district cooling (DC) plant
at the Business Bay complex
(pictured) in Dubai, UAE.
Construction Weekly reports
senior vice-president of
projects at the company, S.G.
Thiyagarajan, as saying that
the process was “very tough”.
Trans Gulf was chosen
ahead of several major MEP
contractors as its experience
in developing other local DC
plants proving vital to securing
the $42m contract.
Trans Gulf’s experience
in district cooling plants
includes the operation and
maintenance of Business
Bay’s District Cooling Plant
2 and Dubai Health Care
City’s DCP, as well as the
reticulation works, operation
and maintenance of Business
Bay’s District Cooling Plant 3.
The project will involve the
construction of one building
with a built-up area of almost
9,500m² and will have a total
capacity of 43,750 refrigeration
tonnes (RT).
The facility will be the frst
district cooling plant in the
region to be built in line with
“green building” principles,
and to follow the guidelines of
treated sewage effuent and
thermal energy storage.
The project is expected to
be completed in mid-2014.
The 2013 DOE Western
Regional Dialogue Meeting on
Industrial Energy Effciency and
Combined Heat and Power will
take place in Salt Lake City, in
the US, on October 29.
This one-day dialogue
meeting will focus on the
potential for increased
industrial energy effciency in
the region.
It will also push for successful
industrial and CHP policy
approaches, innovative policy
options, and opportunities to
work together to achieve the
many benefts of industrial
energy effciency and CHP.
The meeting builds on the
August 30, 2012, Executive
Order: Accelerating Investment
in Industrial Energy Effciency,
which sets a goal of 40 GW of
new, cost-effective industrial
CHP in the US by 2020.
It also calls for developing
and implementing state
best practice policies and
investment models that
address the multiple barriers
to industrial energy effciency
and CHP.
The European Investment
Bank (EIB) has issued the
largest ever climate bond in
the European Union.
The $857m (€650m) funds
from the Climate Awareness
Bond are earmarked for
projects within the felds of
renewable energy and energy
effciency.
These include wind,
hydropower, wave, tidal, solar
and geothermal projects and
effciency schemes such as
district heating, cogeneration,
building insulation, energy
loss reduction in transmission
and distribution, and
equipment replacement with
signifcant energy effciency
improvements. The bank said
the bond generated strong
demand among a series of
investors genuinely interested
in the socially responsible
features of the transaction,
adding new investors to EIB’s
distribution, particularly in the
Benelux, Germany and France,
which accounted for around
80% of fnal allocations.
Asset managers, insurance
companies and pension
funds provided more than half
of distribution by investor type.
The European Union and
the EIB have both made
climate change mitigation
and adaptation a top policy
priority.
Weltec Biopower has won
its frst contract in Belgium,
having been requested by
NPG Energy to set up a biogas
combined heat and power
plant in the Limburg region.
The 2.4-MW plant will power
around 5000 households and
is set to go live in spring 2014.
The 19 GWh that will be
generated every year will be
consumed by the Spin-group
BV, which needs the electricity
for its production facilities
in which special carpet
yarns are manufactured in a
demanding polymerisation
process.
The plant concept ensures
effciency in all areas. The
generated heat will be utilised
directly on site: the digestate
will be extracted directly from
the 2000m3 second-stage-
digester in order to be dried
with the entire heat produced
by the plant and the dry
fertiliser will then be sold to fruit
and winegrowers across the
border.
A highly effcient mix from
grease separators and a pre-
mixed, ready-to-use substrate
will account for another major
portion of the input. Apart from
plant residue, this mix will also
contain fats and vegetable
waste. Additionally, the two
bioreactors of a capacity of
4700m3 each will be fed with
soap water from biodiesel
production and cereals prune.
This substrate mix is typical
for Belgium, where biogas
digesters have always been
charged with diverse mixtures.
WINNING BIDDER ANNOUNCED FOR DUBAI DISTRICT COOLING PLANT
EVENT CALLS FOR CHP POLICY PUSH EUROPEAN BANK SEEKS TO PROMOTE EFFICIENCY WITH $857M BOND
BIOGAS CHP DEAL MARKS WELTEC’S FIRST CONTRACT IN BELGIUM
1309cospp_12 12 9/9/13 11:26 AM
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The Shanghai Tower, which
will be China’s tallest building
when fnally completed next
year, is using on-site power and
cogeneration to power its vast
operation.
Topping out ceremonies
were held this month to mark
the completion of the core
structure of the tower, when the
last beam was placed on top
of the 632-metre (2073-foot)
building designed by global
design and architecture frm
Gensler.
Wind turbines located
directly beneath the parapet
generate on-site power for the
upper foors of the building,
with a 2130kW natural gas-fred
cogeneration system on site
providing electricity and heat
energy to the lower foors.
Meanwhile, the tower’s
outer skin insulates the
building, reducing energy
use for heating and cooling.
The tower’s spiralling parapet
collects rainwater, which is
used for the tower’s heating
and air conditioning systems.
Overall, the $2.2bn Shanghai
Tower’s sustainable strategies
will reduce the building’s
carbon footprint by 34 000
metric tonnes per year.
CHINA’S TALLEST BUILDING REACHES
DIZZY ENERGY EFFICIENCY HEIGHTS
The New York Hilton has
completed a new green
roof system and installed a
cogeneration system, both
designed to reduce the hotel’s
overall carbon footprint.
The 16 000-square-foot
green roof system was installed
by Xero Flor America and is
located on the hotel’s ffth
foor rooftop setback on the
building’s West 53rd Street side.
The system represents a major
investment by Hilton New York
to beneft efforts in carbon
capture, energy conservation,
and reduction of the Urban
Heat Island effect.
The installation of a highly-
effcient, environmentally-
friendly cogeneration system
also situated on the hotel’s ffth
foor roof setback, will provide
in excess of 50% of the hotel’s
electrical power and over
40% of its steam consumption
for heating and hot water
requirements.
As the largest hotel in New
York City with 1981 rooms, Hilton
New York consumes over 23
million kW hours of electricity
per year.
MANHATTAN’S LARGEST HOTEL
COMPLETES COGEN INSTALLATION
1309cospp_13 13 9/9/13 11:26 AM
News
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com14
Fortum has inaugurated the
largest biomass combined
heat and power plant in Latvia.
The plant is located in
Jelgava and will generate an
electrical capacity of 23 MW
and heat capacity 45 MW.
The inauguration ceremony
will be attended by the
Presidents of both Latvia and
Finland, and the Ambassador
of Finland to Latvia.
The plant is to use wood
chips as fuel and will provide
up to 85% of Jelgava’s district
heating capacity.
Meanwhile, French
engineering giant Alstom is to
supply fue gas cleaning and
a heat recovery system at the
new $158m Tekniska Verkin
waste-to-energy cogeneration
plant in Sweden.
The CHP plant is to be run
by the state-owned waste
management and biogas
producer in the city of Linköping,
Sweden and is set to generate
80MW of power.
Alstom’s fue gas cleaning
system is being used to achieve
EU level emissions.
The system includes an
Alstom NID semi-dry cleaning
step that injects lime and
activated carbon to clean fue
gas. The fue gas then goes
through a scrubber to remove
more emissions and recover
heat.
The other suppliers on the
new power plant are Fincantieri
Cantieri Navali Italiani, which will
supply the turbine, and German
Fisia Babcock Environment,
supplying the boiler. The
new plant is to be ready for
commissioning in 2016.
FORTUM INAUGURATES LATVIA’S
LARGEST BIOMASS PLANT
Bharathi Indian Polar Station,
the scientifc research facility
located in the Antarctic Circle,
is being powered by combined
heat and power technology
since becoming operational
last year.
The facility (pictured), which
is comprised of shipping
containers, uses three
combined heat and power
units, fueled by kerosene, to
generate heat and power.
Commissioned by India’s
National Center For Antarctic
And Ocean Research and
designed by Hamburg-based
BOF Architekten, the new
station is located Larsmann Hills
section of northeast Antarctica.
The treaty that governs
international research stations
on the continent stipulate
that the structure must have
the ability to be completely
disassembled and removed
from the frigid landscape
without leaving a trace, so the
designers immediate turned
to shipping containers as
their building medium, reports
EarthTechling.
Built on stilts, the Bharathi
Polar Station has three foors,
comprised of 134 shipping
containers. The containers,
which were prefabricated in
Germany, are interlocked and
covered by an insulated skin
and outer shell.
Inside the facility are 24
single and double rooms, a
kitchen, dining room, library,
ftness room, offces, lounge,
and an operating theatre
along with laboratories, storage
areas, assorted technical
spaces, and a workshop.
Nippon Paper Industries
USA’s expanded biomass
cogeneration plant is fnally
set to go online in October in
Washington State.
The plant will create steam
to make paper and generate
20 MW of electricity for the mill
and for sale.
That includes hydraulic
equipment, valves, fuel lines
and a snakelike mass of
external piping that carries
water, steam and air between
the boiler and the mill.
Main components include a
30-foot cooling tower, 110-foot
boiler and a 115-foot cone-
shaped wood-waste-fuel silo.
Also being tested is a “truck
dump” that lifts vehicles flled
with biomass high in the air —
tractor, trailer and all — and
dumps the wood waste out the
back.
The project has survived
appeals before the state
Shoreline Hearings Board and
Thurston County Superior Court
that began before construction
commenced in June 2011.
Opponents have been
concerned about air pollution,
though the company has
maintained — and the Olympic
Region Clean Air Agency has
agreed — that Nippon has
fulflled all state and federal
pollution-control laws.
The cost of the new plant
originally was estimated at
$71m but it rose to $85m due to
higher-than-expected costs for
the cooling tower and redesign
of the fuel silo and foundation.
INDIA’S ANTARCTIC POLAR STATION
POWERED BY THREE CHP UNITS
DATE SET FOR NIPPON BIOMASS PLANT TO GO OPERATIONAL
1309cospp_14 14 9/9/13 11:26 AM
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The Mexican government
has unveiled a bill that would
open up more opportunities for
cogeneration to fourish in the
country.
While the bill is mainly
concerned with changing the
Mexican constitution to let it
partner with private companies
to fnd and produce oil and
gas in a country, it also seeks
to liberalise Mexico’s electricity
sector by allowing private frms
to produce and sell electricity
to consumers.
A third of Mexico’s electricity
is generated by private frms
under a cogeneration plan
where they produce power
for themselves and sell the
extra to the state electric
utility.
If the legislation passes it
will continue to encourage an
environment where combined
heat and power can grow.
The move would end the
monopoly of the Federal
Electricity Commission, poten-
tially lowering electricity prices
for companies and residents.
The bill now goes to Mexico’s
congress.
The conservative opposition
has said it would support the
proposals, giving Peña Nieto’s
Institutional Revolutionary Party
the two-thirds majority it will
need to pass the constitutional
changes.
NEW MEXICAN LEGISLATION COULD OPEN UP FRESH COGEN OPPORTUNITIES
Rhode Island-based Toray
Plastics in the US is to build a
$22.7m cogen system at its
Kingstown campus (pictured).
Toray is keen to avoid
the damage caused by
disruptive weather events and
associated power outages.
Toray already operates a
cogeneration system that
supplies continuous power
to its Lumirror polyester flm
division, which sustains
manufacturing production
even during severe weather
events and enables the frm
to provide uninterrupted
customer service.
The new system is expected
to be operational by March
next year. It will be dedicated
to powering production on-site
for the Torayfan polypropylene
flm division and other sites
around the property.
The company’s decision
to build a new cogeneration
unit is supported by the
Rhode Island Public Utilities
Commission and National
Grid, which supplies 100%
of the electricity distributed
to Toray beyond Toray’s own
cogenerated electricity.
US PLASTIC MANUFACTURER TORAY TO UTILISE CHP AT CAMPUS
1309cospp_15 15 9/9/13 11:26 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com16
ASEAN’s decentralized energy sector
The impetus behind decentralized energy development in the ASEAN
region is gathering pace. Elisa Wood looks at the many opportunities
that exist, counterbalanced by the challenges that remain.
Building on-site generation
in ASEAN
Distributed generation can help to serve remote locations in ASEAN where fuel delivery is diffcult Credit: Iris Scherer
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com16
Launch and learn:
1309cospp_16 16 9/9/13 11:26 AM
www.cospp.com Cogeneration & On–Site Power Production | September-October 2013 17
ASEAN’s decentralized energy sector
A ‘launch and
learn’ strategy is
not the kind Chip
Bottone favours
when he participates in
an energy project in a
new country. The CEO of
US-based FuelCell Energy
would rather understand the
market before venturing into
untried territory. He would
prefer ‘learn and launch’.
But he knew this would be
impossible in Indonesia, a
member of the Association
of Southeast Asian Nations
(ASEAN). These countries –
Brunei, Cambodia, Indonesia,
Laos, Malaysia, Myanmar,
the Philippines, Singapore,
Thailand and Vietnam –
can be the land of both
opportunity and frustration for
international decentralized
energy companies. Doing
business here often requires
a pioneering spirit and a
measure of patience. So what
drew Bottone to Indonesia?
‘What we saw in Indonesia
was a fairly big population –
150 million people. They had
inadequate infrastructure in
terms of electricity. They had
a growing middle class. They
did have natural resources’, he
says. But Bottone adds, “They
also had lot of things that are
not helpful, like corruption and
disorganization.”
With long-time South Korean
partner POSCO Energy, FuelCell
Energy launched its Indonesia
project in 2011, as the frst
commercial stationary fuel cell
power plant in Southeast Asia
outside of South Korea. The
partners chose a highly visible
location to create a showcase
project that would capture
attention – Ancol Dreamland,
a waterpark resort and major
tourist destination in Jakarta.
Two years later the 300 kW
combined heat and power
(CHP) plant is still not in
operation, at the time of the
writing of this article, but is in
the fnal construction phase.
Bottone estimates the same
project would take six to nine
months to complete in the US.
Still the partners
accomplished their goal: ‘It
was meant to demonstrate
how to interconnect to the grid,
what the economics are, what
all the approval processes
are, what all the permitting
processes are – because they
don’t have established policy
as other more developed
countries have’, he says.
Welcome to the ASEAN
countries – where the potential
for decentralized energy is
vast but not easy to capture
because of bureaucracy, lack
of clear rules, and sometimes
a dearth of infrastructure and
skilled workers.
Growing demand and
blackouts
Decentralized energy or
distributed generation,
particularly from clean
energy, remains a nascent
undertaking in much of the
region.
‘On-site generation or
distributed generation is not
commonly implemented in
ASEAN member countries,
which still focus on centralized
generation’, says Beni Suryadi,
energy policy analyst at the
ASEAN Centre for Energy.
But there is no question that
the region could beneft from
more on-site power. Anywhere
there are transmission and
distribution grid inadequacies
market opportunities for
distributed generation open
up. And the ASEAN countries
have their share of grid
inadequacies.
Consider, for example, May
2013. Forty per cent of Luzon
Island in the Philippines lost
power, including metropolitan
Manila, because of power
plant failures. Thailand
experienced its largest
blackout on record in its 14
southern provinces following
a lightning strike, and Vietnam
saw a 10-hour blackout in
22 provinces, including Ho
Chi Minh City because of
damage to a transmission line,
according to press reports.
Such events are not unusual
because the countries have
not updated or expanded
their power infrastructure
quickly enough. The result is
‘a tremendous amount of
brownouts and blackouts and
tremendous loss of quality of
power,’ says Sridhar Samudrala,
an assistant professor at SUNY
Delhi USA and president &
CEO of International Energy
Consulting Co.
Meanwhile, the population
and economies are expanding
and demanding more energy;
some areas are becoming
electrifed for the frst time.
ASEAN is the fourth most
populated block in the world
– behind China, India and the
European Union. Its middle
class is growing, and expected
to become 65% of the total
population by 2030, up from
only 24% in 2010, according
to a report by Dubai-based
investment frm, the Abraaj
Group, which invests in
emerging economies.
Further, the report says, its
population is young and will
increasingly demand more
consumer goods. The region
already has healthy growth
in gross domestic product:
5.7% for 2012 and a predicted
5.5% for 2013, according to
the International Monetary
Fund.
All of these changes
and growth require more
electrifcation. And in some
areas, demand is dramatically
outstripping supply. For
example, in Myanmar about
75% of the population is still
without access to electricity,
and the government says
that supply is only about
half of projected demand,
according to a report
Electricity in Myanmar:
The Missing Prerequisite for
Development, by the Harvard
Kennedy School Ash Center for
Democratic Governance and
Innovation and the Rajawali
Foundation Institute for Asia.
So with blackouts rampant
and central grids slow to
improve, it is no surprise
that decentralized energy is
growing at what Samudrala
described as an ‘exponential’
pace.
‘The current grid is unable
to expand at the level of
growth in the ASEAN countries
and therefore the industrial,
commercial, and residential
customers are opting for small-
scale generation and creating
mini grids’, he says.
Coal use to grow
Electric reliability is one reason
for the ASEAN countries to
pursue advanced distributed
generation; environmental
concerns are another.
Fossil fuels account for 74%
of the region’s generation,
and about 22% comes from
combustible biomass and
waste that is ineffcient and
environmentally unsustainable,
Distributed generation is not
commonly implemented in ASEAN
member countries, which still focus
on centralized generation. But
there is no question that the
region could beneft from more
on-site power
1309cospp_17 17 9/9/13 11:27 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com18
ASEAN’s decentralized energy sector
according to research by
Melissa Low, energy analyst
at the National University of
Singapore’s Energy Studies
Institute.
Demand for coal has grown
fastest over the last decade in
Malaysia. Indonesia, Thailand
and Vietnam also are large
coal consumers, according
to the US Energy Information
Administration’s (EIA)
International Outlook 2013.
The coming years are
expected to bring even more
use of coal in the ASEAN
countries, even as developed
nations like the US begin to
curb its use. The EIA forecasts
an annual increase in coal
consumption of 2.4%. Several
new, large coal-fred plants, of
at least 1 GW, are coming on
line, particularly in Malaysia,
Indonesia and Vietnam. In
Vietnam alone, 36 GW of coal-
fred generation is expected
to be installed by 2020 and
76 GW by 2030.
Another fossil fuel important
to the region is diesel.
The region relies on diesel
generators to overcome its
reliability problems. However,
this option can be expensive.
For example, in Myanmar
diesel prices were about
$1/litre in early 2012, which
is the equivalent of $0.30 to
$0.35/kWh – or fve or six times
the average price charged
by the government utility for
electricity, according to the
Harvard–Rajawali report.
While diesel can be
expensive, it is also important
to the region because it
can mean the difference in
ASEAN countries between
power or no power, and brings
signifcant changes in quality
of life and business operations,
particularly in remote outposts.
For countries like Myanmar
and Cambodia and remote
Indonesia ‘this option is still on
the table’, Suryadi says. He adds
that great effort is being made
to install renewable energy as
a substitute, but capital costs
and lack of infrastructure
remain as barriers.
In a case study, MTU Onsite
Energy describes better
schooling for children and
a rise in small businesses
installation in the Indonesian
city of Fakfak, following
installation of its MTU Series
1600 engines. Fakfak, which
has a population of 69,000
people, is separated from
other communities by poorly
maintained mountain roads,
had relied on power from
neighbouring towns, which
meant blackouts were the
norm. The local MTU generators
now maintain Fakfak’s
2.4 MWh peak demand.
‘Countries like Vietnam,
Lao PDR, India, Myanmar,
Philippines, Pakistan and others
generate a lot of electricity from
diesel, as the grid is unreliable.
The private sector companies
simply cannot rely on the grid
and they are converting to
alternative and renewable
energy as an option to offset
the diesel energy prices’,
confrms Samudrala
Renewable goals
Indeed, several of the countries
have set renewable energy
goals. Thailand, which has
the most advanced energy
infrastructure in the region,
recently announced a new
renewable energy goal to
build 3000 MW of solar by 2021.
The country expects feed-in
tariffs (FITs) for distributed
solar to spur about 1000 MW
of new development. The FIT
is designed to attract 200 MW
of rooftop solar by the end
of this year and 800 MW of
community ground-mounted
solar by the end of 2014.
Thailand has a goal to
expand its renewable energy
from 6.3 GW in 2011 to
20.5 GW, so that renewables
make up 29% of total
generating capacity by 2030.
Hydroelectricity now accounts
for about 5% of generation, and
non-hydroelectric renewables
(mostly biomass and biogas)
2%, according to the EIA.
Thailand is the furthest
along among the ASEAN
when it comes to introducing
on-site generation, according
to Suryadi.
Its progress stems back to
the government’s introduction
of the Small Power Producer
(SPP) programme in 1992, and
Very Small Power Producer
(VSPP) programme in 2001.
Under the programmes,
the state-owned Electricity
Generation Authority of
Thailand (Egat) was required
to purchase power from small
cogeneration or renewable
projects. Most of the resulting
projects were developed by
local companies to fulfl their
own energy needs.
Looking forward, Thailand
plans to continue to add
more CHP. From 2012 to 2019,
the government forecasts
that Thailand will add about
5100 MW of cogeneration,
with an additional 1368 MW
from 2020 to 2030, according
to Smart/Intelligent Grid
Systems Development and
Deployment, authored by
Samudrala and published
by the World Alliance for
Thai Decentralized Energy
Association.
In the Philippines, the
country’s Energy Regulatory
Commission (ERC) in July
issued new net metering
rules for on-site renewable
installations not exceeding
100 kW. And last year the ERC
approved a FIT for several
renewable energy resources,
including run-of-river hydro,
biomass, wind, and solar. The
fnal solar FIT of 9.69 PhP/kWh
($0.22/kWh) was far lower
than the originally proposed
17.95 PhP/kWh. ERC adjusted
the rate to account for
falling solar panel prices. The
government plans to review
the FIT rates in three years or
when the nation meets the
Department of Energy’s goals.
The Philippines is striving for
100% renewable generation
within a decade and hopes
to triple its renewable capacity
by 2030; it already gets more
than 50% of its electric supply
from geothermal, biomass and
hydro. The Philippines is the
second largest geothermal
generator, behind the US.
Indonesia, which has
about 43.5 GW of installed
capacity, gets about half of
its power from coal. Nine per
cent of its generation comes
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com20
ASEAN’s decentralized energy sector
from hydroelectricity and 5%
from geothermal, putting it
third place worldwide for that
resource. About 70% of the
population has access to
electricity; the government
hopes to expand access to
80% by 2014 and 90% of the
population by 2020.
Indonesia has set up a fast-
track for power generation
development, which includes
10 GW to be completed by 2014
of clean energy sources, such
as natural gas, geothermal
and other renewable energies.
The country also has a FIT for
renewables that offers 15-year
contracts.
Distributed generation can
serve Indonesia in remote
locations where fuel delivery
is diffcult, according to a
report, Distributed Generation:
Indonesia View Point and
Case, by the Coordinating
Ministry of Economic Affairs.
The ministry also points to
non-intermittent decentralized
energy – such as small hydro –
as way to avert line losses and
improve voltage regulation
and grid stability. Indonesia
already has about 20 mini-
hydro stations in operation,
totalling about 44 kW, and
over 700 kW in various stages
of development. The country
also is pressing forward with
an aggressive concentrating
solar initiative.
The Future
While many of the countries
have renewable energy goals
that can help spur distributed
generation, it remains to be
seen if they can translate
goals into reality. ‘All of these
countries have excellent
renewable energy goals – on
paper’, Samudrala says.
ASEAN countries are trying
to better their overall power
sector by creating a regional
power grid across member
countries. The goal is to
improve energy supplies so
that the countries can both
meet growing demand and
promote cleaner energy.
Suryadi agrees that ‘the
spirit’ of the region favours
regional integration as the best
way to cope with its various
energy problems. This does
not mean that the region will
operate as one power entity,
but it is likely to consolidate into
sub-regions to pool indigenous
energy resources.
For example, the Mekong
Area, (Thailand, Cambodia,
Myanmar, Vietnam, Lao PDR)
are now working together to
develop large hydroelectricity,
he adds.
‘The spirit of energy market
integration will defnitely boost
the installation of on-site
generation in the region,” he
says. “A more open power
trade regime in the region will
encourage the development
of renewable sources such as
solar, hydro and wind for power
generation through on-site
generation. And hence the
total cost of meeting region-
wide electricity demand will
be reduced’.
But Suryadi is not saying
it will be easy. ‘The market
integration in the region
remains a challenging task,
especially to deal with the fast
growth of electricity demand in
all ASEAN member countries.’
FuelCell Energy’s Bottone
sees problems as well. ‘The
good news is that there is
probably demand in those
countries. The bad news is they
are not organized for it yet.’
FuelCell Energy, which
manufactures more than
50 MW of fuel cells per year
at its Torrington, Connecticut
plant in the US, has continued
to expand its infuence in Asia.
The company in late 2012
executed a series of strategic
initiatives with POSCO Energy,
including a license agreement
under which POSCO will
manufacture the company’s
complete carbonate fuel cell
technology in South Korea and
sell them throughout Asia.
POSCO Energy, Korea’s
largest independent
power producer, intends to
produce 140 MW of fuel cell
components annually. The
company expects to begin
manufacturing in early 2015.
But would Bottone tackle
another ‘launch and learn’ in
the ASEAN region if he had it
to all over again? Yes, he says,
that is the only way policy and
standards will improve and the
region’s markets grow. ‘These
Southeast Asian countries
have a need for a renewable
distributed energy strategy,
there is no question. The
question is when’.
Elisa Wood is a US-based
freelance writer, who
specializes in energy matters.
This article is available
on line. Please visit
www.cospp.com
21% Coal
71% Natural gas
1% Oil
5% Hydro
2% Other renewables
Thailand’s electricity generation profle, 2011 The Philippines’ electricity generation profle, 2011
28% Coal
41.4% Geothermal
15% Natural Gas
3% Fuel Oil
11.4% Hydro
3% Fuel Oil
Several of the countries have set
renewable energy goals. Thailand,
which has the most advanced
energy infrastructure, recently
announced a new renewable
energy goal to build 3000 MW
of solar by 2021
1309cospp_20 20 9/9/13 11:27 AM
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com22
In the early 1990s,
‘Power for a changing
world’ was a well-known
marketing slogan
used by Wärtsilä Power
Plants. Today that slogan
is even more appropriate,
especially in Europe, with
new renewable power
generation, such as wind
and solar, now a signifcant
part of the energy market.
The notable impact of
renewable production
changes many operational
set-ups, and presents new
challenges for the energy
industry. At the same time,
the European Commission
and European Parliament
have set, and will set forth,
energy strategies up to 2020
and 2050 that, in addition to
the use of renewable energy,
focus very much on carbon-
free, environmentally-friendly
power generation, and on
the effcient utilization of
primary fuels. This will involve
a major restructuring of the
conservative European energy
industry and market.
The work around these EU
strategies aims also to give a
well-defned framework, with
harmonized common rules
and regulations for the industry
to be equally applied in all
Member States, thus providing
the basis for investments and
healthy growth in the industry.
In order to fulfl these strategies,
new innovative solutions and
fexible multi-purpose plants
are needed in a transparent,
free-trade market with, to a
large extent, distributed energy
production.
Denmark is acknowledged
as being a frontrunner in
forming its own energy
laws, and at an early stage
adopted very liberalized rules
and regulations for its energy
industry.
Today, the country scores
very high marks for its amount
of installed renewable and
wind production, as well
as for its very effcient CHP
(combined heat and power)
electricity production, with
plants distributed evenly across
the entire country. Skagen
Varmeværk is a typical Danish
district heating company, with
its heat and power production
based to a large extent on a
gas engine plant using three
Denmark has taken a proactive role in adapting to the changing needs of the energy market. The rest of
Europe can learn from its example writes Anders Ahnger, Bent Iversen and Mikael Frejman.
Skagen Varmeværk successfully manages its heat and power production in Denmark’s liberalizedenergy market
CHP and Europe’s changing energy market
Smart power generation for a changing world
1309cospp_22 22 9/9/13 11:27 AM
www.cospp.com Cogeneration & On–Site Power Production | September-October 2013 23
CHP and Europe’s changing energy market
Wärtsilä 28SG generating
sets. This article looks at how
Skagen Varmeværk manages
this plant’s operations in a
modern liberalized Danish
energy market.
Danish district heating
The very frst district heating
system in Denmark was
established in the city of
Frederiksberg in the early
1900s. This lead was gradually
followed by other cities
across the country, and today
Denmark has more than 500
district heating plants. More
than half of Denmark’s energy
consumption for residential
heating is generated by
those district heating plants,
including Skagen Varmeværk.
All Danish district heating
plants are governed by a
district heating law that refects
the present energy policy of
the Danish parliament. These
regulations offer incentives for
energy effciency and, rather
importantly, ensure that the
Treasury Department collects
all the agreed energy taxes.
The law also states that district
heating companies are not
allowed to proft from heat
deliveries to its members.
Skagen Varmeværk began
operations in 1964 with
535 co-operative society
members. The district heat was
generated by a boiler plant
able to operate on fossil and
bio-oils. In 1979, by which time
the number of consumers had
grown to 1050, the municipality
of Skagen commissioned a
waste incineration plant that
was connected to the district
heating system. Fiskernes
Fiskeindustri, a private
company, started the delivery
of waste process heat to the
district heating system in 1982.
Skagen Varmeværk was
connected to the national
gas grid system in 1988,
where a new boiler station,
operating on natural gas
was commissioned. Precisely
ten years later it was time to
commission the fully automatic
combined heat and power
station.
The plant was designed for
automatic mode, enabling
unattended operation outside
normal working hours, when
the command for starting and
stopping the plant is shifted to
the dispatch centre.
Skagen Varmeværk
The company is responsible
for supplying district heating
to the town of Skagen, the
most northern town in Jutland.
In winter, its 8400 inhabitants
enjoy a quiet life with little traffc
and few crowds. However, in the
summertime it is transformed
into a very crowded, and
popular place. This ability to
adapt to the rapid changes in
the surrounding environment
seems also to have become
part of Skagen Varmeværk’s
business philosophy.
The CHP plant is equipped
with effcient heat recovery
that reaches a total effciency
that exceeds 90%. Even
though the plant is 15 years
old, its performance remains
very good compared to other
modern power plants. The
engines were upgraded a
few years ago to achieve a
higher output and improve
performance.
The plant not only produces
heat for the city and power
for the distribution system
operator, but also actively
participates in the Danish
electricity regulating and
primary reserve/frequency
balancing markets.
To handle these
simultaneous production
requirements effectively, highly
fexible operation, short start-up
and shutdown capability, as
well as operator alertness,
are essential. The plant is,
therefore, equipped with: hot
water boilers operating on
natural gas and prepared for
the possible use of bio-oils and
fuel oils; an electrical hot water
boiler operating in parallel
with the gas engines; and
of course with heat storage
or an accumulator. All these
units allow very fexible and
environmentally-sustainable
production.
In addition to its own
production, a municipal waste
incineration plant and a
nearby industry are delivering
heat to the common Skagen
district heating network. The
waste incineration plant is
run as a baseload plant and
provides stable year-round
heat production. The heat from
the industrial plant is delivered
on a more occasional basis,
refecting the industry’s own
schedules and working hours.
One of the three Wärtsilä 28SG generating sets that power the CHP plant
Denmark is acknowledged as
being a frontrunner in forming its
own energy laws, and at an early
stage adopted very liberalized
rules and regulations for its
energy industry
1309cospp_23 23 9/9/13 11:27 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com24
CHP and Europe’s changing energy market
These two additional heat
sources adequately fulfl the
city’s minimum heat demand
during the summer period.
Skagen Varmeværk
maintains its plant in good
condition and constantly
develops its operations to
be more effcient. Danes
in general are very energy
conscious and strive always to
utilize the full energy content of
the primary fuel for production.
There are even governmental
rules on how to continuously
improve CHP plant operations,
as well as for how consumers
can save energy.
Recent investments in
the Skagen plant include
new absorption chillers
installed after the exhaust
gas economizers. These
squeeze out even more
heat from the gas engine
exhaust gases to gain total
plant effciencies reaching
greater than 100%, calculated
on the lower heating value.
Furthermore, the heat
storage capacity has been
drastically increased by an
additional heat accumulator
of 350 MWhth to achieve even
greater fexibility for the plant
on the power markets. The
bigger heat storage capacity
between the heat production
and the district heating
network naturally adds
more operational freedom.
Managing production
Like all district heating
companies, Skagen
Varmeværk delivers heat
according to the demand at
the lowest possible cost. The
required heat production,
therefore, provides the
framework within which
electricity can be produced, for
participating in the regulating
and primary reserve markets.
Thus, production planning
demands a good knowledge
of the plant’s capabilities, as
well as good forecasting of
market behaviour.
All the above mentioned
production units are jointly
utilized in an optimal way,
based upon their specifc
operational characteristics
and upon market conditions
and fuctuations. The plant
operates very much on the
day-ahead estimates of
the heat demand, and the
regulating and frequency
balancing markets.
Depending on the balance
between these two electricity
markets, the running strategy
is somewhat different and
involves co-operation with
the dispatch centre for the
area and the other power
producers.
The predicted heat
consumption is fexibly
managed through the heat
accumulators, and provides
the framework as to how the
gas engines could or should
be run. The varying daily
spot prices on the regulating
and reserve markets have,
of course, an impact on the
running philosophy, and the
goal is always to produce
electricity when the spot prices
are high.
When operating in these
two electricity markets, the gas
engine characteristics prove to
be highly valuable. The primary
reserve market demands
fast starts and stops, and the
engines can cope with that.
In the regulating market, the
engines are run at about
70–80% load, where again
the gas engines’ high and
constant part load effciency is
invaluable.
If it is not worthwhile to run
the engines, the corresponding
heat can be produced by
the gas boiler or even with
the electrical boiler, provided
that the electricity spot prices
and the electrical network
balances are favourable.
The 11 MWe electrical boiler
is designed to have a large
operating window, and can
in that way also participate
in the electricity markets as
a load. The excess electricity
from the renewable energy
production can, therefore, also
be dumped into the electrical
boiler and further into the
heat accumulator. Electricity
production is of course closely
coordinated together with
the electricity operator for the
district or area.
The fgure on p.26 is of
a typical production track
record for the heat production
during a full calendar week.
The diagram shows also the
spot prices on the electricity
markets, the regulating and
power reserve markets, heat
demand and production, as
well as the level of stored heat
in the heat accumulator.
The engines are kept warm
and prepared for an unlimited
Skagen Varmeværk’s equipment and heat sources
3 x 18-cylinder Wärtsilä 28 SG 3 x 4.6 MWe / 19.4 MW
th
4 x gas hot water boiler 46 MWth
Electrical hot water boiler 1 x 11 MWth
Heat import from waste incineration plant
6 MWth (max.)
Heat import from industrial plant
6 MWth (max.)
Heat storage capacity/ hot water accumulator
250 MWhth
The former and new hot water storage units behind the power plant
The plant not only produces heat
for the city and power for the
distribution system operator,
but also actively participates in the
Danish electricity regulating and
primary reserve/frequency
balancing markets
1309cospp_24 24 9/9/13 11:27 AM
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com26
CHP and Europe’s changing energy market
number of daily starts and stops.
Normally though, as indicated in
the diagram, once or twice a
day is enough. The marginal
cost of the plant, in conjunction
with the electricity spot prices
and possible ancillary service,
forms the operation profle.
Electricity spot prices decrease
at night and the engines
are usually stopped. In this
operational mode, the total
yearly running hours of the
engines are nowadays around
2000 hours. The engines are
seldom run during weekends
when the electricity spot prices
are low.
From the fgure above, you
can also see that the electrical
boiler is operating mainly
during the night and is then
participating in both of the
electricity markets. It is able to
act fast as a load for getting rid
of excess electricity in the grid,
or to control the frequency
of the grid. The heat from this
boiler is fed to storage and to
the district heating network.
New harmonized rules
The European Energy Strategy
2020 identifes energy effciency
as one of the key priorities of
the EU’s energy policy. The 20%
goal for renewable energy is
broadly on track, while the 20%
primary energy saving target is
still a long way off. The recently
agreed Energy Effciency
Directive (EED) aims to give
new momentum to energy
effciency measures.
The EED is expected to
recognize that the anticipated
strong growth of renewable
power creates a need to
also include high-effciency
cogeneration plants in grid
stability management, and
in the electrical ancillary
service market. Unnecessary
obstacles for accessing the
grid and the ancillary service
market should be removed by
the member states.
Cogeneration and CHP in
plants with fexible running
patterns by necessity demand
heat storage, which the EED
highlights as an area requiring
development. In situations
with for instance, excess wind
power, this energy could be
stored for heating purposes.
Engine plants easily fulfl the
“high effciency cogeneration”
criteria presented in the
EED, as well as fast start-up
and turn down capabilities.
Furthermore, compared to
pure peaking plants, the
annual electrical effciency
can be slightly increased in
cogeneration plants because
of the possibility of using the
stored heat for preheating
engines on standby.
The EED is now going forward
within the EU, and will fnally be
approved in the EU Parliament.
After this approval the EED
goes for implementation by
the EU Member States. The
member states are then to
incorporate the EED into their
own laws and regulations.
In order to fulfl the EU’s
energy policy and strategies,
there are a number of
different rules and regulations
being worked on in order to
harmonize the systems and
operations between member
states. The harmonisation
of all the different network
codes for the power and
electricity industry will
provide a framework for the
whole Europe. The intention
is that electricity trading
between member states,
between transmission system
operators, and between
distribution system operators,
runs smoothly and fuently
throughout Europe.
Advanced thinking
Skagen Varmeværk also has
recently invested in a new,
very modern offce building,
which naturally includes a
sophisticated HVAC system.
The ground beneath the plant
and offce is somewhat special
and can be utilized via heat
pumps for both the heating
and cooling of buildings, and
this characteristic is used for
the new offce building as well.
During the winter period
and cold season, the heat in
the ground is ‘pumped up’ for
heating the building. This of
course cools down the ground
and soil, which can then be
utilized for cooling down these
facilities during the summer.
During the hot season, when
the soil becomes heated it can
then be used for the coming
autumn and winter. The soil
therefore acts as a small heat
storage system.
Denmark has realized that
energy is a big consideration
for industry as a whole, and
for all its various activities. This
attitude and mature energy
thinking should therefore be
implemented everywhere.
Smarter power generation,
combined with district heating
solution, is undoubtedly a
sensible choice for the future.
Anders Ahnger is Sales
Director, Power Plants
Europe West, Bent Iversen
is Business Development
Manager, Power Plants
Denmark and Mikael
Frejman is Senior
Development Manager,
Power Plant Technology,
Flexicycle Process & Energy
Effciency, all at Wartsila.
www.wartsila.com.
This article was frst
published in InDetail,
(02/2012), Wärtsilä’s
technical journal.
This article is available
on line. Please visit
www.cospp.com
Operational track record for one week in mid February 2012 In the legend the CHP 1 to 3 represents the three Wärtsilä 28SG gas engines
1309cospp_26 26 9/9/13 11:27 AM
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For more information, enter 12 at COSPP.hotims.com
1309cospp_27 27 9/9/13 11:27 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com28
Stable growth is predicted for the global power plant services and maintenance market
over the coming years. Dr. Heather Johnstone fnds out if this is refected in the services
and maintenance market serving the decentralized energy market, in particular the
industrial gas turbine (IGT).
Bright future for IGT services &
maintenance sector
Offering a full range of services for gas turbines is essential. Here is shown a customized compressor blade used for critical measurements Credit: Wood Group GTS
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com28
IGT services & maintenance market
T‘he services and
maintenance sector
serving all forms of
power generation in
Western Europe is expected
to generate yearly revenues
that top $2.8 billion in 2018;
up 14% on 2011 revenues,
and thereby representing a
stable rate of growth over
the next fve years. This was
the main fnding of research
conducted by Frost &
Sullivan, a market analyst
company, last year.
According to Neelan Patil,
a research analysts at Frost &
Sullivan, ‘a key market driver’
of this growth will be Western
Europe’s ‘aging feet of
power plants’ leading to new
capacity additions – shifting
from large, steam-fred power
generation facilities to more
compact, effcient gas-fred
combined-cycle power plants.
He adds: ‘The continued
trend of LTSAs [long-term
service agreements] for gas
turbines, and the willingness
of [customers] to outsource
operations and maintenance
activities to third-party
providers will also drive revenue
growth for services.’
So the services sector
serving the global power
generation industry appears
to be in the best of health now
and over the course of this
decade. Is this same growth
trend refected in the services
and maintenance sector
that serves our decentralized
energy assets, in particular the
industrial gas turbine (IGT)?
Main drivers of growth
According to Alina Bakhareva,
a research manager a Frost &
Sullivan, the simple answer is
yes, So if this is the case, what
1309cospp_28 28 9/9/13 11:27 AM
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com30
IGT services & maintenance market
are the main drivers behind
the growth?
Focusing on Europe,
Bakhareva says, ‘15-20 years
ago the liberalization of many
markets in the region provided
the opportunity for large
industrial energy consumers
to build and operate their own
power plants, many of which
were gas turbine based’.
This meant that OEMs’
activity was mainly focused on
equipment sales, with relatively
little attention paid to servicing
and maintenance. According
to Bakhareva, aftermarket
servicing ‘was not part of their
strategies and not part of their
development efforts’.
However, since the
economic crisis hit in Europe
there has been ‘a massive shift
in the gas-fred decentralized
energy sector away from
equipment sales and towards
servicing’, says Bakhareva.
The subsequent slowdown
in the equipment sales
segment has undoubtedly
made OEMs reconsider their
strategies in aftermarket
servicing and maintenance,
which offers an opportunity to
boost revenues.
‘This has resulted in a
heating up of the competition
in the services sector’, says
Bakhareva, ‘with OEMs
and independent services
providers (ISPs), as well as
some customers carrying out
servicing themselves.’
Bakhareva also believes
the industrial customer is
also driving the growth in
the sector, especially for IGTs.
Faced with rising fuel costs,
especially outside of the US, as
well as growing environmental
pressures, large industrial
facilities are keen to identify
ways to run their existing
assets in the most economical
and environmentally-friendly
manner. And that is where the
aftermarket service providers
are stepping in.
For example, there is
now greater interest from
industrial self-generators on
how predictive maintenance
can help reduce equipment
downtime. ‘With advances in
sensors, wireless technology
and software, it would be
silly for them not to take
advantage,’ says Bakhareva.
For an ISP’s perspective,
Cogeneration & On-Site Power
Production spoke with Iain
Murray, president of Wood
Group GTS’ Oil, Gas & Industrial
Services division.
He is similarly bullish about
the growth prospects in the
decentralized energy servicing
sector, and not just in Europe
and North America, but also in
many developing regions.
He believes that in terms of
the industrial sector, a global
economic recovery, additional
production capacity and
equipment reliability will be
their main concerns over the
next fve to 10 years, which in
turn will have an impact on the
servicing and maintenance
segment.
Murray also foresees shale
gas having a signifcant
role to play in this segment,
although at the moment this
is only visible in the US where
shale gas has become an
unstoppable force in the
country’s energy sector.
According to Murray, ‘We see
shale gas as a game-changer
in the industrial segment. It
pretty much means that most
regions, eventually, will have
cheaper gas, giving clients the
opportunity to install gas-fred
power generation on-site.’
And if you combine that with
the aging transmission grids,
he anticipates more industrial
clients will look to install small
gas turbine powered units
at their sites, which will open
up more opportunities for the
servicing sector
Although the US is 3-5 years
ahead of everywhere else in
terms of getting shale gas to
market and achieving cultural
willingness to take advantage
of shale gas, Murray says
A compressor inspection underway Credit: Sulzer Turbo
Oil major extends services contract
Wood Group GTS recently secured a
multi-million dollar, three-year contract
extension from Total E&P Nederland BV
to provide maintenance management
support for the client’s entire feet of
turbines, driven equipment, generators
and associated equipment on seven
offshore gas platforms located in the
Dutch sector of the North Sea.
The contract extension encompasses
the provision of specialist training on
gas turbine operations, maintenance
and controls for more than 100 customer
personnel, as well as the supply of
supplementary offshore personnel for
planned and ad hoc turbine package
maintenance, the provision of engine
supply and overhaul services, and
critical package spare parts reviews
for both planned and unplanned break
down mitigation.
The extension follows on from a
contract frst awarded to Wood Group
GTS in 2009 to provide a dedicated
team of offshore and onshore engineers
to support the planned and ad hoc
maintenance activities on Total E&P
Nederland’s turbine packages.
Iain Murray, president of Oil, Gas &
Industrial Services for Wood Group GTS,
said: “We share Total E&P Nederland’s
business goal of achieving optimal
equipment availability and reliability.
Under the existing contract, turbo driven
equipment availability and reliability
both now exceed 98%. We look forward
to working with Total E&P Nederland to
optimize their maintenance strategy”
Jeroen van der Kaag of Total E&P
Nederland said: “Wood Group GTS’
ability to deliver the most effective
solution across multiple types of turbo-
machinery and ancillary equipment to
meet the needs of our individual assets
is one of the main reasons for awarding
them this contract extension.”
1309cospp_30 30 9/9/13 11:27 AM
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IGT services & maintenance market
‘China, with signifcant shale
gas deposits, is playing
catch-up fast.’
He anticipates that the
‘two biggest energy demand
regions – US and China – will
be self-suffcient on natural gas
in the next fve years’.
Another interesting point
Murray raises is that in the two
main sectors Wood Group GTS
serves – oil & gas and industrial
– the drivers in terms of services
and maintenance are very
different at the moment.
‘In the oil & gas sector,
where oil is now in the region
of US$110/barrels when
historically it has been at
$80 or below, these clients
are essentially making more
money than they know what
do with, so their only real driver
at the moment is ensuring
reliability’,
‘That doesn’t mean they do
not care about the cost when
it comes to their service and
maintenance needs, but they
are not price sensitive,’ he says
‘Yet on the industrial side,
we are seeing an increase in
interest in our independent
offerings because we are a
second or third item on a
factory or facility’s budget
so they are looking around
and saying we need to get
some money out of this cost
structure.
‘So we are now seeing
companies who probably
wouldn’t have talked to us two
or three years ago coming
in and testing the water on
what an alternative solution
would look like: Is it technically
comparable? Is the service
level comparable? And if so, is
there a cost saving?’
It appears that despite
much of the world continuing
to experience the challenges
of an economic downturn
business is booming for ISPs.
Constraints to growth
However, before we become
carried away with all this
positivity, it would be fanciful
to believe no barriers exist to
the development of the IGT
services and maintenance
sector.
In Bakhareva’s opinion, one
of the constraints facing the
sector is that some industrial
clients may not be familiar with
the benefts that outsourcing
equipment servicing can bring.
As she says, ‘they may not
have the internal capabilities
to compare different servicing
models and because they
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A Solar® Mars® gas turbine in a test cell Credit: Wood Group GTS
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www.cospp.com Cogeneration & On–Site Power Production | September-October 2013 33
IGT services & maintenance market
For more information, enter 16 at COSPP.hotims.com
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are accustomed to doing
everything in-house with their
own teams they may not be
willing to consider outsourcing
this function’.
This is clearly less of an issue
in Europe and North America
because clients, such as oil &
gas majors or large chemical
manufacturers, are familiar
with the outsourcing concept.
However, Bakhareva says,
‘as you move further east,
towards Eastern Europe,
Russia and the CIS, many
of the companies remain
rooted in an old-fashioned
way of thinking’. In Russia,
for example, despite many
large industrial companies
having spun-off their servicing
division, the market for services
and maintenance is not fully
competitive yet.
So although servicing can
be carried out by a separate
legal entity, in reality historic
ties between the customer
and the service provider mean
that the former is unlikely to
consider holding an open
tender and inviting other ISPs
to participate.
Thus, a cultural change
needs to take place here. Is
this happening? Bakhareva
believes progress, albeit slow, is
being made.
She holds up Sulzer Turbo as
success story. In 2011, the Swiss
ISP established a partnership
with Urals Turbine Works, and
now is essentially one of
few foreign ISPs successfully
operating in the Russian
market.
She suggests that this
should be viewed as a
successful working business
model for services companies
interested in entering these
eastern markets.
As an ISP, Murray says
‘your technical credibility is
paramount’.
‘When speaking to a client,
questions that will be front of
mind are: Can you do this? If
I give you this maintenance
contract will my turbines
still run? Will my unplanned
outage be resolved as quickly
as with the OEM?’ he says.
The belief that the OEM is
the only one who knows the
equipment and therefore the
only one who can look after
it still exists. ‘And this barrier
needs to be knocked down,’
Murray adds.
‘Thus as an independent
we put a lot of emphasis on
our technical expertise – we
demonstrate we do more than
a ‘me too’ service. We ensure
we know how the engine
works and how to optimize its
performance,’ he says.
And to the future?
Looking longer term, say
over the next 10 to 15 years,
should we be optimistic about
the continued growth of the
sector?
Murray is defnitely
optimistic about the future
of his business. He expects
gas-fred power generation to
play a greater role in energy.
And once global gas at a
reasonable price is achieved
clients will be attracted to
gas-fred power generation
resulting in a growing installed
base of smaller machines
and demand for at least one
or two ISPs. Bakhareva is more
reserved in her response but
concurs that the future is
looking bright for this sector.
This article is available
on line. Please visit
www.cospp.com
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com34
Fuel fexible industrial cogeneration
South Korea’s decades
long economic
development has
created a great need
in the country for the products
of petrochemical plants.
One such facility is the $7.5
billion, 1.9 km2 plant in the
city of Yeosu in South Jeolla
province, owned by Lotte
Chemical (formerly Honam
Petrochemical Company).
In a drive to help maintain
its business competitiveness,
Lotte modernized the facility’s
energy generation equipment,
a move in which cogeneration
plays a pivotal role.
CHP at the complex
produces power and steam
for internal petrochemical
processes, but it does so by
burning an alternative fuel,
the use of which has saved
energy, improved operational
fexibility and optimized the
facility’s energy balance.
This is despite the huge
fnancial stake in the correct,
uninterrupted operation
of Yeosu’s petrochemical
processes, which run 24/7 all
year round, which mean that
that part of the complex that
manages the supply of power
and heat to processes has key
responsibilities.
Yeosu has been running
since 1976. Its operations
revolve around an olefns plant
that cracks naphtha to make
chemicals such as ethylene
– its 1000 ktonnes/y output
is part of the 3600 ktonnes/y
total petrochemicals output of
the complex.
Modern petrochemical
plants use large amounts of
energy, with a heat/power ratio
that is high and variable. Gas
turbine-based cogeneration
units are well suited to such
plants because of their
effciency, emissions controls
and operational versatility.
Cogeneration at the Yeosu
complex comes from its
utilities facility, to which Lotte
added an effcient CHP unit of
190 MWth in 2002. It includes a
40 MW Frame 6B or MS 6001B
heavy-duty gas turbine from
GE, made in Belfort, France.
This E-class machine helps
create steam at a rate of
75 tonnes/h, rising to a peak
rate of 170 tonnes/h.
Thermal demand from the
complex’s various processes
totals 275 MW. This includes
self-generated process heat
and the 63 MWth delivered by
cogeneration. Average power
consumption at the complex
is 150 MWe, of which Lotte self-
generates 67 MWe, and the
grid supplies 85 MWe.
As indicated above, the
petrochemical units absorb
a large amount of heat and
generate their own. Much
of the generated heat feeds
steam pressure networks.
Among the 275 MWth of steam
consumed by the complex, 8%
is at the very high pressure
of 12,400 kPa and at 525°C,
40% is high-pressure steam
at 4100 kPa and 375°C, 22%
is medium-pressure steam
at 1600 kPa and 275°C, and
30% is low-pressure steam at
450 kPa and 185°C.
The complex’s requirement
for high-pressure steam made
gas turbine cogeneration
options all the more attractive.
Figure 1 is a schematic of the
Frame 6B-based cogeneration
unit at Yeosu. These steam and
power facilities let the complex
operate at a large fraction of
full capacity autonomously
even when grid power is lost.
The Frame 6B has been
running at the complex’s
utilities facility since 2003. This
turbine and its heat recovery
steam generator (HRSG)
raised power generated there
from 25 MWe to 67 MWe, which
Heavy-duty gas turbines can enable CHP plants to burn process by-products that might otherwise be a
liability. Yoon-Ho Lee, Michel Moliere and Heung-Yub Ahn describe the design and operational experience
of one such cogeneration facility at a petrochemical complex in South Korea.
Flexibilitybrings economies
Figure 1. The Yeosu plant’s cogeneration unit, which is based on the Frame 6B gas turbine
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www.cospp.com Cogeneration & On–Site Power Production |September-October 2013 35
Fuel fexible industrial cogeneration
brought the self-production
ratio to nearly 45% in 2012. It
also added the peak steam-
generation capacity.
Between March 2003 and
June 2013, the turbine clocked
87,000 hours of operation and
accommodated a projected
shutdown schedule. Over that
time it burnt 888,000 tonnes of
C9+ hydrocarbons as fuel and
only circa (c.a.) 270 tonnes
of gasoil. It also generated
3000 GWhe and, through its
HRSG, some c.a. 7,200,000
tonnes of steam.
The turbine usually runs
continuously all year. Its
availability was 96% and 98%
in 2009 and 2010, respectively;
years when combustion
inspections occurred. A major
inspection in April and May
2011 meant availability was
92% in that year. As far as
trouble-shooting is concerned,
there has been no operational
combustion issue to-date.
Table 1 summarizes the
main operational data of the
plant from 2003 to 2012. The
operation time on backup fuel
was less than 0.1%.
Fuel fexibility
But where Yeosu’s CHP
facility leads the world is in
its commercial use of C9+
aromatics by-products as fuel
Petrochemical plants
employ large cracking units
that require signifcant volumes
of noble hydrocarbons as feed-
stocks. The crackers convert
these costly compounds into
olefns, which are the raw
materials for organic synthesis
and polymerization. A major
strategy of the Yeosu complex
was to use the C9+ aromatics
by-products of this process as
the primary energy source for
cogeneration and thereby
maximize their use.
The economics of using
these secondary energy
resources and to strictly limit
the use of any other
commercial fuel are
favourable, a general rule that
applies to all CHP projects in
petrochemicals aaplications.
Generally the requirements
for an ideal alternative
fuel for captive generation
are exacting: low, ideally
negative commercial value;
characteristics outside normal
commercial specifcations;
and unfeasibility of sale. But
technical and environmental
aspects are important too.
There must be compatibility
between the fuel and the
prime mover, the available
volume of fuel must match the
targeted CHP capacity and the
prime mover must be capable
of mixed-fuel operation. Also
data on emissions of pollutants
must be acceptable. Heavy-
duty gas turbines have many
advantages here.
In the case of GE’s E-class
units, which include the Frame
6B, 7E and 125 MWe ISO 9E, they
have demonstrated the ability
to accommodate a wide
range of gas and liquid fuels, a
quality allowed by the physics
of combustion in gas turbines.
These fuels vary from LPG1 to
distillates2,3, ash-forming fuels4
and fuels that are by-products
of industrial processes. Figure
2 shows how heavy-duty gas
turbines can burn a wide
range of fuels2.
Gas turbines are
continuous-fow, steady-fame
machines that create no
special ignition requirements
on, for example, the octane and
cetane indexes. They also emit
negligible amounts of volatile
organic compounds (VOCs),
unburned hydrocarbons (UHC)
and soot over a wide load
range. They can also use the
universal de-NOx method of the
injection of steam and water,
and their dual-fuel capability
is unprecedented because
fuel transfers can be automatic
and virtually transparent.
However, in practice the
range of alternative fuels
that are accessible depends
on combustion designs, the
experience of the OEM and
its commitment to tackling
challenging applications.
At Yeosu the challenge was
to make the complex’s exotic
C9+ aromatics by-product
the main fuel, while using
gasoil only for startups and
shutdowns.
C9+ aromatics are blends
of liquid hydrocarbons, 80%
of which are aromatics.
Heavy-duty gas turbines burn
aromatic fuels cleanly thanks
to their steady combustion
regime, their hot and lean
diffusion fames and their very
oxidizing combustion zones5.
These fractions are not suitable
for other prime movers such as
reciprocating engines.
Fuels may be classifed as
gaseous, with high, medium or
low BTU properties, and liquids,
with the C9+ aromatics lying in
the region of naphtha fuels.
Although the Frame 6B
is a heavy-duty gas turbine
with can-annular combustors
that have combustion traits
favourable to burning highly
aromatic fractions, such fuels
do pose certain challenges.
The mixed fuel oil that the Frame
6B uses at Yeosu comprises
C9+ mono-aromatics and
C6-C8 non-aromatics.
Mono-aromatics are volatile
and non-lubricious and
Figure 2. Range of liquid and gaseous fuels for GE gas turbines
Table 1. Main operational data of Yoesu’s cogen unit
Fired hours on MFO 87,000
Fired hours on gasoil 64
Tonnes of C9+ aromatic burnt
888,000
Number of starts 485
GT Inspection status CI done April 2013 (2009-CI, 2010-CI, 2011-MI, 2012-CI)
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Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com36
Fuel fexible industrial cogeneration
require similar engineering
measures as naphtha3,6,7.
They also have higher auto-
ignition temperatures and
worse smoke numbers than
homologous paraffnic
compounds.
Petrochemical plants use
by-product mono-aromatics
as feedstocks. But fuctuating
demand for petrochemical
products can lead to excesses
of these fractions. Export of
these surpluses can be costly
or a logistical problem, so their
use in on-site power generation
is helpful.
But the fames of liquid
fuels, aromatics in particular,
make combustion more
complicated compared
with gas. Although aromatic
fuels are very fuid, which
means they do not suffer
from incomplete vaporization
during combustion – unlike
viscous fuels – and the
resulting soot when unburned
droplets leave the combustors,
a chemical limitation to their
combustion is still likely.
Combustion of liquid fuel
comprises two competing
main mechanisms: repetitive
cracking-oxidation that
leads to the formation of CO2
and H2O, and pyrolysis, in
which polycyclic structures
form, followed by soot in the
micron-range size. This second
mechanism is favoured in
oxygen-depleted zones of
the combustion zone. Figure
3 illustrates what happens in
the case of three types of C10
hydrocarbon chains.
Table 2 summarises the
infuence of the properties
of liquid fuels on gas turbine
combustion and emissions.
A feld test using a so-called
benzene heart cut was
performed in a Frame 6B to
assess the feasibility of burning
mono-aromatic hydrocarbons.
It showed that burning mono-
aromatic fuels cleanly is
possible. Table 3 displays the
analysis8.
Another major beneft of
burning C9+ aromatics is that
combustion leads to emissions
of only moderate amounts
of CO2. At Yeosu it has also
cut SO2 emissions by 750
tonnes ,compared with 0.1%
sulphur diesel oil since the
commissioning of the turbine.
Prime mover selection
The Frame 6B has also
demonstrated its ability
to match the stringent
expectations of the
petrochemical community in
terms of effciency, availability
and reliability.
The turbine has its own
control system, which is
integrated into the DCS, and
the unit reacts more quickly to
restarts or load changes than
steam-based units. Also the
loading of the supplementary
fring in the HRSG is much faster
compared with a conventional
oil-fred boiler. Finally the
petrochemical complex has
also become less vulnerable
to disconnection from the
electricity grid or boiler trips.
If grid power fails, the Frame
6B goes from ‘droop’ mode
to ‘island’ mode, while other
generators would stay in the
droop mode. The complex also
protects vital upstream units
by automatically changnig its
electricity frequency reference
from the grid to the main
generator.
Experience with the Frame
6B has showed that it would
meet the requirements of the
plant designers. The prime
mover had to be of a reliable
and robust technology, with an
H/P ratio of 1.5:1, operational
fexibility that allowed fast starts
and load changes, highly
standardized maintenance,
and a large fuel experience
base.
This single-shaft machine
features a 17-stage axial
Figure 3. The competing oxidation and pyrolysis reaction routes
Table 2. Impact of liquid fuel properties on a gas turbine’s combustion and emission behaviour
Fuel property trends Effect on combustion Ultimate effects
Higher viscosity Increases fuel droplet size Increases smoke emission
Higher C/H ratio5, carbon residue and aromatics content
Increase combustion temperature, generate PAHs
Increases thermal NOx; increases soot, UHC and CO
Higher sulphur content
Conversion of S into SO2
Increases SOx emissions; raises fue gas Dew Point
Higher FBN Conversion into organic NOx Increases overall NOx
Content of inert inorganic material
(Ca, Ni, Al, Fe)
Formation of refractory, chemically inert ash
Erosion, deposition (fouling of the turbine)
Content of corrosive metals (alkaline
metals, V, Pb)
Generation of low melting point ash Hot corrosion of turbine parts: ‘Type I & II hot corrosion’
1309cospp_36 36 9/9/13 11:27 AM
www.cospp.com Cogeneration & On–Site Power Production |September-October 2013 37
Fuel fexible industrial cogeneration
compressor, a robust and
versatile combustion system,
with 10 can-annular chambers
and a three-stage expansion
turbine. Regular performance
upgrades have increased
its output from 36 MW to the
42 MW of the latest PG 6581B
model. It has also had gradual
upgrades to its hardware.
The turbine can operate
in a wide spectrum of power
generation confgurations – in
simple and combined cycles.
Each turbine generation
set constitutes an individual
module that has the qualities
of start-up agility, rapid
installation indoors or outdoors,
a low footprint and a simple
maintenance programme.
The fast start-up sequence
enables synchronization with
the grid within 12 minutes
and access to full load
after a further 4 minutes.
This capability is paramount
in peak-shaving, but also
valuable in cogeneration
when provision has been
made for a bypass stack.
Concerning emissions
performance, the Frame 6B
can achieve very low NOX
emissions5 – 25 ppmV of NOx
either via a dry low NOx system
(natural gas fring) or by
‘wet control’ consisting of the
injection of a diluent, usually
steam or liquid water, into the
gas turbine combustors.
At Lotte, the combustion
of C9+ aromatics required
the use of diffusion fame
combustors for which the usual
NOx abatement technique
is by the injection of water or
steam.
NOx emissions of the Frame
6B while burning C9+ aromatics
and running at baseload are
around 300 ppmV. Yeosu had
used a steam injection system
since the frst operation of the
turbine in 2003 to cut NOx to
55 ppmV, in line with the Korean
limit. However, in 2008 Lotte
changed the diluent to water to
improve energy effectiveness.
NOx emissions are now
40 ppmV (at 15% O2 in the
exhaust gas).
To maintain performance
over time, the Frame 6B
has an online/offine water
washing skid. Off-line washing
occurs only during scheduled
shutdowns as this minimizes
costly downtime. On-line
washing is performed every
day.
The HRSG used in the
CHP plant is a horizontal,
natural circulation boiler
from Daekyung Machinery &
Engineering that produces
75 tonnes/h of steam from
the average 95 MW of heat
captured from the gas turbine.
It is equipped with duct
burners to provide additional
and automatic fring to more
than double its output to
170 tonnes/h of steam in
5 minutes.
Trailblazing alternative
fuel use
The cogeneration unit’s results
are mainly down to four
converging factors. The frst is a
relevant, maintenance-based
operational policy. Second
and third are the potential of
the Frame 6B and the intensive
exploitation of this potential
by experienced engineering
teams that have regularly
embarked on challenging
applications in new and
upgrade projects. Fourth is
the pro-active plant
management that has
anticipated seasonal and
long-term changes in demand
for heat and power.
More than 60% of aromatics
at the complex are used
routinely and reliably. Yeosu
represents an inroad into the
general use of such fuels and
another milestone on the way
to adapting power generation
to the fuel mixes of the future.
References
1. A. Olbes, M. Pujol et al, High
compatibility between gas
turbines and refnery utilities,
POWER-GEN Europe, Madrid,
Spain, June 1997.
2. M. Moliere, Alternative
Fuels: Industry Perspective
Worldwide, ASME Turbo Expo
Fuel Panel session, 11-15 June
2012, Copenhagen, Denmark.
3. M. Moliere, F. Geiger et al,
Volatile, low lubricity fuels in
gas turbine plants: A review
of main fuel options and their
respective merits, ASME Turbo
Expo 1998, Delhi, India, Paper
GT 231.
4. N. Marikkar, D. Nanayakkara
et al, Heavy fuelled gas
turbines in power generation:
the LTL CCGT at Kerawalapitiya,
Sri Lanka, as a paradig-
matic plant, PowerGen Asia,
Singapore, 2-4 November,
2010.
5. M. Moliere, Stationary gas
turbines and Primary Energies:
A review of fuel infuence
on energy and combustion
performances; International
J. Thermal Science, 2000, 39,
141-172.
6. J. P. Stalder and P. Roberts,
Firing low-viscosity fuels in gas
turbines, ASME Turbo Expo
2003, Atlanta, USA, 16-19 June.
7. Turbotect Pamphlet ER 517
& ER 18 Technical data sheets,
2003.
8. M. Moliere and F. Geiger,
Gas turbines in alternative fuel
application: The utilization of
highly aromatic fuels in power
generation, paper GT 53272,
ASME Turbo Expo 2004, Vienna,
14–17 June.
Yoon-Ho Lee is from Honam
Petrochemical Company
and Michel Moliere and
Heung-Yub Ahn are from GE
Energy.
www.ge.com
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line. Please visit
www.cospp.com
Table 3. Analysis of the benzene heart cut in the combustion test for aromatic fuel
Physical properties:
Specifc gravity at 15°C
kg/m3 790
Viscosity at 25°C cSt 0.40
Boiling range °C IBP: 73; 10%: 76; 90%:86; FBP: 90
Flash point °C < -20°C
Chemical analysis:
Species (P + O + N)* Aromatics
C4-C5 10.3 -
C6 7.6 58.6 (benzene)
C7 4.1 8.5 (toluene)
C8 0.3 8.6 (xylenes/ethylbenzene)
C9+ 0.2 3.6 (other mono-aromatics)
TOTAL 22.5 77.5
*P = paraffns, O = olefns, N = naphthenics
1309cospp_37 37 9/9/13 11:27 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com38
Novel, cost-effective fuel cell technology
Hydrogen fuel
cells might be
most commonly
thought of in
conjunction with cars but
they can also provide
electricity for stationary
power systems. The US
Department of Energy
reported in 2011 that
approximately 15,000 fuel
cells were shipped globally
in 2010 – more than a 40%
growth since 2008.
Fuel cells are portable and
can be transported easily, they
are silent in operation (so ideal
for use in or near residential
areas) and they can be used
either for continuous power
or as emergency back-up
systems.
The ‘plug-and-play’ nature
of a fuel cell also means that
they can be used to replace
or supplement the grid
infrastructure, or help meet
peak grid demands.
However, you could argue
that the biggest advantage
of fuel cells is actually the fuel
they use – hydrogen.
Hydrogen is a very high-
energy fuel and is the most
abundant energy source
on the planet. Fuel cells are
the highly-effcient way of
converting a fuel into electrical
energy because they do it in
one step. Hydrogen fuel cells
have a theoretical maximum
energy conversion effciency
of more than 75%: nearly twice
as effcient as a gas turbine
when it comes to generator
technologies. It is a clean,
non-polluting fuel, and is a
common by-product of many
industrial processes. There
is therefore huge potential
to use hydrogen as a clean
stationary power source.
The genius of hydrogen is that
it can also play into the wider
energy production picture.
Currently, weather-dependent
A UK-based clean energy frm’s revolutionary approach to hydrogen fuel cell technology, translates into
cheaper, smaller and more durable fuel cells Dr. Andrew Creeth explains the science behind the technology.
ACAL Energy’s PEM fuel cell is said to be cheaper and more durable than any other hydrogen fuel cell currently on the market
Bringing the power of hydrogen fuel cells
to the stationary market
1309cospp_38 38 9/9/13 11:27 AM
39
Novel, cost-effective fuel cell technology
www.cospp.com Cogeneration & On–Site Power Production |September-October 2013
renewable power, such as
solar or wind, is dogged by
supply and demand problems.
For example, on a very windy
day, a wind farm will produce
more power than is needed, so
this excess capacity will go to
waste.
But this excess power could
be used instead to power an
electrolyser, creating hydrogen
as a means of storing the
energy. A cell voltage of about
1.5V is enough to allow an
electrolyser to split water into
hydrogen and oxygen, so
it is a very easy and simple
way to extract hydrogen. This
is why German utilities are
already using electrolysers to
make hydrogen from their
surplus renewable energy.
In this manner, fuel cells act
just like normal batteries –
providing portable, storable
power that can be accessed
on demand.
Hydrogen is also a waste
product from a variety of
industrial processes, the
largest being the chlor-alkali
industry, which produces
more than 100,000 tonnes
of waste hydrogen per year,
which equates to more than
100 million gallons of petrol.
With little market for the
element, the hydrogen is
usually released, unused, back
into the atmosphere.
However, if there was
demand from fuel cell users,
the chemicals industry could
sell their waste hydrogen
instead, thus creating a
new revenue stream. One
kilogramme of hydrogen
provides roughly the same
energy as one gallon of petrol.
Hydrogen fuel cells can also
be used for combined heat
and power (CHP) applications
– either domestically or
commercially.
This ‘hydrogen economy’
model is attractive because
it works in symbiosis with
other established sectors.
This in turn helps establish
a well-distributed hydrogen
infrastructure, which can
link into existing or potential
hydrogen producers. So
whether you are operating
a telecom base station, a
chemical plant or a sewage
treatment works, you should
fnd it easy to access a source
of hydrogen or potentially, as in
the case of a chemical plant,
use what would otherwise go
to waste.
But although hydrogen
makes an undeniably
excellent fuel, a number of
stumbling blocks associated
with standard hydrogen fuel
cells have held back the
widespread adoption of the
technology.
Standard proton exchange
membrane (PEM) fuel cells
are expensive, and contain
fragile components that
degrade quickly. The key
component that makes up the
PEM fuel cell is also its Achilles’
heel – the platinum catalyst
assembly within the stack,
which facilitates the reaction
to produce electricity, is easily
damaged. This limitation,
coupled with the fact that
the stack contributes up to
50% of the cost of the entire
device, signifcantly limits
the technology. These issues
need to be addressed if the
hydrogen fuel cell has any
chance of becoming a viable
technology for mass-market
adoption.
Revolutionary approach
To tackle this problem, we
developed a revolutionary
new approach to fuel cell
technology. ACAL Energy-
designed PEM fuel cells are
cheaper and more durable
than any other hydrogen fuel
cell currently on the market.
With the ACAL Energy
technology, a liquid catalyst –
FlowCath® – replaces up to 80%
of the platinum catalyst found
in standard PEM fuel cells.
This involved re-engineering
the cathode (air) side of
the fuel cell; removing the
platinum and replacing it
with a polyoxometalate liquid
chemical solution – coined the
‘secret sauce’.
The advantages of this
design technology are
two-fold. In a standard PEM fuel
cell, the cathode side of the
cell (just 30% of the system)
contributes 80% of the cost and
is responsible for 99% of the
durability issues. Because our
architecture modifes this part
of the system, it signifcantly
enhances durability and
reduces costs.
There are a number of
durability mechanisms that the
new technology addresses.
Firstly the polyoxometalate
is highly stable and does
not degrade. In addition, no
damaging intermediates
in the reaction with air are
formed in the cell which
normally would degrade the
catalyst assembly.
In standard PEM fuel cells,
as the fuel and oxygen are
pumped into the system, the
membrane within the cell
stack starts to degrade and the
system wears down. As the fuel
cell is switched on and off, the
membrane moves between a
dry and wet state. This cycling
causes dimensional change
and can lead to damage,
which signifcantly limits the
membrane’s lifetime.
In contrast, FlowCath – the
liquid catalyst – dramatically
improves the fuel cell’s
durability. In the ACAL Energy
system, the liquid catalyst
is always in contact with
the membrane so it avoids
such extremes and therefore
lengthens the fuel cell’s
lifespan.
This in turn enables the
system to operate at a higher
temperature than would
normally be the case for
stationary applications. The
hotter the fuel cell system, the
higher the rate of heat loss. The
ACAL Energy system operates
At the heart of ACAL Energy’s fuel cell system is FlowCath, a liquid catalyst that replaces up to 80% of the conventional platinum catalyst
1309cospp_39 39 9/9/13 11:27 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com40
Novel, cost-effective fuel cell technology
at around 110°C, signifcantly
higher than the 70°C
normally observed. The higher
temperature and robustness
enables the fuel cell to operate
at a higher power density.
Because the increased
temperature increases the
rate of heat loss, a simpler
and cheaper heat exchange
system is needed. For CHP
systems, a more effective heat
transfer is enabled, making the
system more effcient and less
expensive. The advantages
offered by our technology
mean that the FlowCath
technology can be used for
stationary applications such
as in data centres, schools,
hospitals, utilities, fxed line
operators and telecom base
stations at much lower cost.
This has not previously been
feasible; up until now, longevity
and durability had only been
possible with large amounts of
platinum, which then makes
the fuel cells prohibitively
expensive for mass-market
deployment and use.
ACAL Energy’s technology
has effectively broken these
old rules.
Durability testing
The ACAL Energy fuel cell
technology has undergone
robust durability testing in both
stationary and automotive
applications. Of greatest
signifcance, the technology
has been tested using an
automotive standard test
designed to push a fuel cell to
its very limits. Our technology
has exhibited no signifcant
signs of degradation during the
tests and the same trajectory is
expected in stationary power
system testing.
The hydrogen fuel cell
has reached 10,000 hours,
equivalent to 300,000
road miles, in a simulated
automotive industry test
consisting of a repeated
40-minute journey without
signifcant sign of degradation.
These results out-perform the
previous industry benchmark
of 5000 hours of testing with
20% degradation. Standard
PEM systems tend to decay at a
constant rate at approximately
30 µV/h whereas the FlowCath
system shows no change for
8000 hours.
Concurrent stationary
testing has also been running
alongside the automotive
application. So far, the cell
has reached over 5000 hours;
although somewhat behind
the duration of the automotive
test, the cell has not exhibited
any decline in performance.
On the basis of the results
observed in the (signifcantly
more demanding) automotive
test, one would certainly
expect the stationary cell to
demonstrate equally robust
results and for these results to
follow the same trajectory.
With the ACAL Energy
technology, the same
fundamental system can be
deployed in both stationary
and automotive applications.
FlowCath provides the
levels of high durability and
stability required in stationary
applications and the power
density and size associated
with automotive applications.
As a result, the technology can
offer stationary durability at
lower automotive price points.
Going commercial
After eight years of research
and development – possible
due to funding from investors
such as the Carbon Trust,
Solvay Chemicals Group and
the Sumitomo Corporation
– ACAL Energy is currently
negotiating contracts with a
number of large energy and
automotive companies –
leaders in the deployment of
fuel cell platforms.
The FlowCath fuel cell
technology has also been
installed at Solvay’s UK
chemical plant in Warrington,.
The fuel cell – a 3 kw power
unit – uses hydrogen that
comes from a nearby
chlorine production plant.
This application is used as a
back-up power unit supplying
energy to the hydraulic water
pump on the plant site. The rig
has been running for hundreds
of hours, and has endured
over 250 stop-starts: so far the
fuel cell has demonstrated
100% durability – an example
of the robustness of the system
that can be expected. The
stop-start testing highlights a
key beneft of the ACAL Energy
system; the fuel cell can be
used sporadically as back-up
power, as well as a continuous
power source.
FlowCath provides a
breakthrough for fuel cell
technology. The enhanced
durability realized by the
liquid catalyst means that
the technology for both
automotive and stationary
applications can be aligned
for the frst time. Initial targeting
of automotive companies will
lower fuel cell costs, because
the supply chain will be
optimised for high volumes. This
method will be advantageous
for stationary applications that
will subsequently beneft from
the low costs associated with
fuel cells produced by a large-
scale supply chain.
Fuel cells represent a way
to supplement power from the
grid, and can provide a reliable
back-up power source if mains
power goes out. They are quiet,
clean, energy-effcient – and
like a giant battery, they can
be plugged into a variety of
situations and used in a variety
of ways. This fexibility makes
fuel cells the ideal power
source of the future.
Dr. Andrew Creeth is chief
technology offcer at ACAL
Energy Ltd, UK.
www.acalenergy.co.uk
This article is available on
line. Please visit
www.cospp.com
In a simulated automotive industry test the ACAL Energy fuel cell has reached 10,000 hours, equivalent to 300,000 road miles, with no sign of degradation
For CHP systems, a more effective
heat transfer is enabled, making
the system more effcient and
less expensive, and suitable for
stationary applications such as in
data centres, schools, hospitals, at
much lower cost
1309cospp_40 40 9/9/13 11:27 AM
17-19 March 2014
Cape Town International Convention Centre
Cape Town, South Africa
INVITATION TO EXHIBIT
The inaugural DistribuTECH Africa is a must attend event for
any company involved in the power and water transmission and
distribution industry..
With Africaís electricity consumption expected to grow at a
rate of 3.4% per year until 2020, DistribuTECH 2013 is
expected to play an important role in the expanding market
and lead the way in the advancement of the transmission and
distribution industry.
This annual forum not only provides the ideal opportunity
to address technological challenges, but also launch new
products and showcase your company amongst an audience
of key decisions makers from leading international operators,
manufacturers and suppliers.
BOOK YOUR BOOTH TODAY
For booth and sponsorship enquiries, please contact:
Leon Stone
Exhibit Sales Manager - Rest of the World
T: +44 (0) 1992 656 671
F: +44 (0)1992 656 700
Andrew Evans
Exhibition Sales - Africa
T: +27 (21) 913 5255
F: +27 (0) 86 770 7447
WWW.DISTRIBUTECHAFRICA.COM
EQUIPPING UTILITIES FOR THE FUTURE
NEW PENNWELL EVENT COMING TO AFRICA
Co-located with
Owned &
Produced by: Presented by:Host Utility Sponsor:
Supporting
Organization:
1309cospp_41 41 9/9/13 11:27 AM
Cogeneration & On–Site Power Production |September-October 2013 www.cospp.com42
Executive Director: David Sweet
1513 16th Street NW, Washington, DC 20036
Tel: +1 202 667 5600 • Fax: +1 202 315 3719 • web: www.localpower.orgWORLD ALLIANCE FOR DECENTRALIZED ENERGY
The World Alliance for Decentralized Energy (WADE) was established in 1997 as a non-proft
research and promotion organization whose mission is to accelerate the worldwide development
of high effciency cogeneration (CHP) and decentralized renewable energy systems that deliver
substantial economic and environmental benefts.
WADE WELCOMES DR. GUYER AS
DIRECTOR OF ENERGY TECHNOLOGY
Dr. Eric Guyer
has worked for
four decades
as an engineer,
i n v e n t o r ,
e n t re p re n e u r,
and author in the
energy feld.
After attaining advanced engineering
degrees from the Massachusetts Institute
of Technology and then managing
a group of research and consulting
engineers at the Dynatech R/D Co in
Cambridge, Massachusetts, he moved
on to found Yankee Scientifc, Inc. and
Climate Energy, LLC.
For nearly 25 years, Yankee Scientifc
has been a creative engineering and
technical resource for energy systems for
industry, government, and trade associa-
tions. Climate Energy, LLC, in partnership
with Honda, created and commercialized
America’s frst practical system for cogen-
eration of heat and electric power in the
home.
Along the way, Dr. Guyer led a team
of 50 technical experts to create the
highly-regarded Handbook of Applied
Thermal Design, originally published
by McGraw-Hill in 1988. Career mile-
stones including winning the R&D 100
Award, the Breakthrough Technology
Award of Popular Science magazine,
and the frst-ever Energy Star Emerging
Technology Award of the US Department
of Environmental Protection.
His work includes major undertakings
for Fortune 500 companies, the Electric
Power Research Institute, the Gas Research
Institute, the Army, the Navy, the Air Force,
the Defense Advanced Research Projects
Agency, and a number of consortia of
gas and electric utility companies.
Dr. Guyer now focuses on moving new
energy conversion technologies out of
the laboratory and into the marketplace.
He works to bring together advanced
technical concepts with product designs
and business plans that make sense
for the very competitive energy market
place. His interests and activities involve
cogeneration, thermal processing in
materials manufacture, combustion, fuid
power machinery, natural gas transport
and storage technologies, and heating
and cooling of buildings.
In his work with WADE, Dr. Guyer will
look to help energy users and investors
connect with the technical innovation
and innovators that can offer practical
and affordable solutions for reduced
energy use at minimum environmental
impact. He can be contacted by email at
DONATE FOR THE SILENT AUCTION TO BENEFIT THE WADE FOUNDATION
The WADE Annual Conference this November will also include
a silent auction to beneft the WADE Foundation, which is
an IRS 501 C3 non-proft foundation focused on delivering
decentralized energy technologies to developing countries
where people lack access to modern power systems. In
addition to goods and merchandise, donations can include
tickets to events; artwork; wine; gourmet food; hotel stays and
airline tickets; use of vacation homes; golf outings; boat trips or
other creative ideas. All donors will be recognized at the Annual
Conference, in Cogeneration & On-Site Power Production and
in the WADE Newsletter. Please send an email to David Sweet,
([email protected]) with a description of your donation,
any special instructions or restrictions, the fair market value of the
donation (should be over $50) and your contact information.
NATURAL GAS
ROUNDTABLE FEATURES
CHP-FOCUSED PANEL
The Natural Gas Roundtable is the
leading forum in the US that brings
together all sectors of the natural gas
industry for discussion and dialogue.
This July, the Roundtable featured a
programme on ‘Distributed Generation
and Natural Gas – a Winning Team for
Affordable Power, Resilient Infrastructure
and the Environment’. This panel
featured Steve Zilonis, Chairman of
WADE, Rick Murphy of the American Gas
Association and Janet Peace of the
Center for Climate and Energy Solutions,
and was chaired by WADE Director
David Sweet. The session highlighted the
opportunity that CHP offers for new load
growth for natural gas markets, as well
as the many environmental benefts that
can be delivered by greater deployment
of these natural gas technologies.
For more information about the
Natural Gas Roundtable please contact
David Sweet at [email protected].
1309cospp_42 42 9/9/13 11:28 AM
For more information, enter 19 at COSPP.hotims.com
1309cospp_43 43 9/9/13 11:28 AM
Cogeneration & On–Site Power Production | September-October 2013 www.cospp.com44
WORLD ALLIANCE FOR DECENTRALIZED ENERGY
Executive Director: David Sweet
1513 16th Street NW, Washington, DC 20036
Tel: +1 202 667 5600 • Fax: +1 202 315 3719 • web: www.localpower.org
WADE PARTICIPATES IN MADRI’S INAUGURAL
MEETING
INDUSTRIAL COMPETITIVENESS, ENERGY SECURITY AND RELIABILITY TO BE
THE FOCUS OF CHP & WHP 2013 CONFERENCE
The Mid-Atlantic Distributed Resources
Initiative (MADRI) held the frst of a series of
meetings focused on the question, What
needs to be done to make distributed
generation (DG) more accessible to
end-use customers while balancing the
interests of all stakeholders?”
The meeting, which took place at the
Federal Energy Regulatory Commission’s
headquarters in Washington D.C.,
considered the barriers to deployment
of CHP systems, and potential policy and
rate-making strategies for addressing
them. Bill Pentland, the Director of Markets
and Regulation at WADE, participated
in a panel focused on how utility tariffs
and rate-making issues can affect the
economic viability of CHP systems.
Contact Bill Pentland at wpentland@
localpower.org with any questions.
MADRI seeks to identify and remedy
retail barriers to the deployment of
DG, demand response and energy
effciency in the Mid-Atlantic region. It
was established in 2004 by the public
utility commissions of Delaware, District
of Columbia, Maryland, New Jersey
and Pennsylvania, along with the US
Department of Energy, US EPA, FERC and
PJM Interconnection.
MADRI’s guiding principle is a belief
that distributed resources should
compete with centralized generation
and transmission to ensure grid reliability
and a fully functioning wholesale electric
market.
Industrial competitiveness,
recent federal initiatives
and various state policies in
the US have spurred great
interest in combined heat and
power (CHP) and waste heat
to power (WHP). The Texas
Combined Heat and Power
Initiative (TXCHPI), The Heat is
Power Association (HiP), and
WADE are joining forces to
convene CHP2013 & WHP2013
to address these interests. The
conference and trade show
will be held 7–9 October at
the Crowne Plaza in Houston,
Texas, US.
In its fourth year, this
conference brings business
and energy leaders together
with industry experts, project
developers, policy specialists
and end-users to examine
new technologies, market
opportunities and installation
case studies of CHP and WHP..
The event also includes a
vibrant exhibit hall.
CHP systems, also known
as cogeneration, reduce fuel
costs associated with on-site
generation using natural
gas or biogas by taking full
advantage of waste heat
recovery to signifcantly
increase energy effciency.
CHP provides energy security
during times of grid strain and
extreme weather conditions,
and is gaining favour in
hospitals, universities, data
centres, manufacturers, and
other mission critical facilities.
WHP systems enhance
industrial effciency by
capturing waste heat
from industrial processes,
converting it to power, and
returning the power back into
the process or exporting it for
others to use.
E n e r g y - i n t e n s i v e
industries such as oil & gas
refneries, chemical facilities,
paper plants, steel mills,
cement plants and glass
manufacturers employ WHP
systems to generate power from
baseload waste heat, which is
produced on-site whenever
operations are running. WHP
systems, which require no
combustion and produce
no emissions, improve overall
industrial energy effciency
and competitiveness, and
are considered renewable
energy systems in over 15
states, making WHP a natural
and integral part of all clean
energy discussions.
Paul Cauduro, TXCHPI
Executive Director said: ‘While
often overlooked, combined
heat and power and waste
heat to power technologies
are a signifcant part of the
nation’s clean energy and job
creation story. Implementation
of these technologies is a
logical decision for improving
energy security and reliability,
maintaining compliance with
environmental regulations,
and for increasing the
competiveness of our
nation’s manufacturing and
processing sector.’
For more information visit
www.chp2013-whp2013.com
TXCHPI, HiP and WADE to convene conference for on-site, energy efficient solutions for today’s
economic and environmental challenges
JOIN THE NEW WADE
LINKEDIN GROUP AND
RECEIVE EXCLUSIVE
HANDBOOK
Become a member of WADE LinkedIn
Group and be a part of the rapidly
growing global community of supporters
and experts in the feld of decentralized
energy. As a member of WADE LinkedIn
Group you can connect to your
colleagues and professionals from the
industry, and stay up to date on a range
of commercial opportunities and policy
issues. If you join the WADE LinkedIn Group
you will also get free access to the WADE
Handbook on Smart/Intelligent Grid
Systems Development & Deployment.
To join go to LinkedIn and search under
World Alliance for Decentralized Energy.
1309cospp_44 44 9/9/13 11:28 AM
For more information, enter 17 at COSPP.hotims.com
1309cospp_45 45 9/9/13 11:28 AM
CALL FOR PAPERSSubmit your abstract for Europe’s largest power industry conference
ABSTRACT SUBMITTAL DEADLINE 20 SEPTEMBER 2013
Renewable Energy World Europe, co-located with POWER-GEN Europe, is the region’s largest event dedicated to electric power generation,
comprises a comprehensive exhibition foor populated by the major players in the thermal energy sector. Complementing the exhibition is a
multi-track conference that addresses the key issues facing our industry.
The Advisory Board of Renewable Energy World Europe, is now accepting abstracts for the 2014 conference. Share your knowledge,
experience and ideas with technical and strategic decision-makers and strategists.
A full listing of suggested conference topics and themes is available on the Renewable Energy World Europe event site.
Please visit www.renewableenergyworld-europe.com and select the conference tab.
For queries relating to the conference, please contact:
Sophia Perry
Conference CoordinatorT: +44 (0) 1992 656 641F: +44 (0) 1992 656 700E: [email protected]
NAVIGATING THE POWER TRANSITION
Owned and Produced by: Presented by: Supported by: Co-located with:
3 – 5 JUNE 2014 I KOELNMESSE I COLOGNE I GERMANY
WWW.RENEWABLEENERGYWORLD-EUROPE.COM
If you have a smart device equipped with
a scanning app, please scan this QR code to
be taken directly to the conference page.
1309cospp_46 46 9/9/13 11:28 AM
Diary of events
Send details of your event to Cogeneration and On-Site Power Production: e-mail: [email protected]
POWER-GEN Asia
Bangkok, Thailand
2–4 October 2013
Lee Catania, PennWell
International, The Water Tower,
Gun Power Mills, Powdermill Lane,
Waltham Abbey, Essex EN9 1BN, UK
Tel: +44 1992 656 647
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.powergenasia.com
Renewable Energy World
Asia
Bangkok, Thailand
2–4 October 2013
Crispin Coulson, PennWell
International, The Water Tower,
Gun Power Mills, Powdermill Lane,
Waltham Abbey, Essex EN9 1BN, UK
Tel: +44 1992 656 646
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.powergenasia.com
Combined Heat & Power
and Waste Heat to Power
Conference & Trade Show
Houston, TX, US
7–9 October 2013
Paul Cauduro, TXCHPI, P.O. Box
41747, Houston, TX 77241-1747, US
Tel: +1 512 705 9996
e-mail: executivedirector@texas-
chpi.org
web:www.chp2013-whp2013.com
COGENERATION DAYS 2013
Cestlice, nr Prague, Czech Republic
13–15 October 2013
Olga Solaríková, COGEN Czech
e-mail: [email protected]
web: www.cogen.cz
22nd World Energy Congress
Daegu, South Korea
13–17 October
WEC Daegu 2013 Organizing
Committee
Tel: +82 2 3489 4400
Fax: +82 2 3489 4499
e-mail: [email protected]
web: www.daegu2013.kr
DOE Western Regional
Dialogue Meeting on
Industrial Energy Effciency
and CHP
Salt Lake City, UT, US
29 October
SRA International, 4300 Fair Lakes
Court, Fairfax, VA 22033, US
Tel: +1 703 8031500
e-mail: [email protected]
2nd International DHC+,
Research Conference
Brussels, Belgium
5–6 November 2013
Ingo Wagner,
DHC+ Technology Platform
web: www.cvent.com
POWER-GEN International
Orlando, FL, US
12–14 November 2013
Stephanie Moore,
PennWell Corporation,
1421 South Sheridan Rd, Tulsa,
OK 74112, US
Tel: +1 918 832 9382
e-mail: [email protected]
web: www.power-gen.com
Renewable Energy World
North America
Orlando, FL, US
12–14 November 2013
Cassie Chitty,
PennWell Corporation,
1421 South Sheridan Rd, Tulsa,
OK 74112, US
e-mail: [email protected]
web: www.renewableenergyworld-
events.com
COGEN/CHP Asia
Jakarta, Indonesia
13-15 November
International Clean Energy & Sus-
tainability Network (ICESN).
Tel: +65 6506 0965
Fax: +65 6749 7293
e-mail: : [email protected]
web: http://icesn.com/cogen/
WADE Annual Conference
& Joint Meeting with the
Northeast Clean Heat and
Power Initiative
Boston, MA, US
19–21 November 2013
David Sweet, WADE,
1513 16th Street NW,
Washington D.C. 20036, US
e-mail: [email protected]
web: http://conference.local-
power.org/
CHPA Conference and
Awards Dinner 2013
London, UK
27 November 2013
UK CHPA, 6th Floor,
10 Dean Farrar Street, London,
SW1H 0DX, UK
Tel: +44 20 3031 8740
e-mail: [email protected]
web: www.chpa.co.uk
Cogen Nederland
Symposium 2013
Driebergen, the Netherlands
29 November 2013
Kees den Blanken,
Princenhof Park 15+18,
Postbus 197, 3970 AD Driebergen,
the Netherlands
e-mail: [email protected]
web: www.cogen.nl/
2014World Biomass Power
Markets
Amsterdam, the Netherlands
3–5 February 2014
Nick Cressey, Southbank House,
Black Prince Road, Vauxhall,
London, SE1 7SJ, UK
Tel: +44 020 7099 0600
e-mail: biomass@greenpowercon-
ferences.com
web: www.greenpowerconfer-
ences.com
27th Annual Campus Energy
Conference & Distribution
Workshop
Atlanta, GA, US
17-21 February 2014
IDEA, 24 Lyman Street, Suite 230,
Westborough, MA 01581, US
Tel: +1 508 366 9339
Fax: +1 508 366 0019
e-mail: [email protected]
web: www.districtenergy.org
Russia Power
Moscow, Russian Federation
4–6 March 2014
Crispin Coulson,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 646
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.russia-power.org
The Solar Show Africa
Johannesberg, South Africa
10–11 March 2014
Terrapinn Ltd, First Floor, Modular
Place, Turnberry Offce Park,
48 Grosvenor Road,
Bryanston 2021, South Africa
Tel: +27 11 516 4015
e-mail: [email protected]
web: www.terrapinn.com
www.cospp.com Cogeneration & On–Site Power Production | September-October 47
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1309cospp_47 47 9/9/13 11:28 AM
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Diary
Send details of your event to Cogeneration and On-Site Power Production: e-mail: [email protected]
POWER-GEN Africa
Cape Town, South Africa
17–19 March 2014
Lee Catania,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 647
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.powergenafrica.com
Power & Electricity World
Asia
Singapore
22–25 April 2014
Terrapinn Pte Ltd, 1 Harbourfront
Place, #18-01/06 Harbourfront
Tower 1, Singapore, 098633,
Tel: +65 6222 8550
Fax: +65 6226 3264
e-mail: [email protected]
web: www.terrapinn.com
POWER-GEN India &
Central Asia
New Delhi, India
5–7 May 2014
Sue McDermott,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 6326
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.power-genindia.com
Renewable Energy World
India
New Delhi, India
5–7 May 2014
Sue McDermott,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 6326
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.renewableenergyworld
india.com
POWER-GEN Europe
Cologne, Germany
3–5 June 2014
Crispin Coulson,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 646
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.powergeneurope.com
Renewable Energy World
Europe
Cologne, Germany
3–5 June 2014
Lee Catania,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 647
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.renewableenergyworld-
europe.com
IDEA’s 105th Annual
Conference & Trade Show
Miami, FL, US
8–11 June 2013
International District Energy As-
sociation (IDEA), 24 Lyman Street,
Suite 230 Westborough,
MA 01581, US
Tel: +1 508 366 9339
Fax: +1 508 366 0019
e-mail: [email protected]
web: www.districtenergy.org
POWER-GEN Middle East
Abu Dhabi, UAE
19-21 October 2014
Crispin Coulson,
PennWell International,
The Water Tower, Gun Power Mills,
Powdermill Lane, Waltham Abbey,
Essex EN9 1BN, UK
Tel: +44 1992 656 646
Fax: +44 1992 656 700
e-mail: [email protected]
web: www.power-gen-middleeast.
com
APROVIS ENERGY SYSTEMS GMBH 33
CATERPILLAR INC. 9
DISTRIBUTECH AFRICA CONFERENCE & EXHIBITION 41
ELLIOTT GROUP 21
HITACHI POWER EUROPE 19
INTERNATIONAL CLEAN ENERGY & SUSTAINABILITY NETWORK 45
(ICESN)
LESLIE CONTROLS, INC. 25
MAN DIESEL SE 7
MAXIMUM TURBINE SUPPORT 31
OPPLAND CORP., LTD. 32
OPRA TURBINE B.V. 5
POWER-GEN ASIA CONFERENCE & EXHIBITION IBC
PROTO MANUFACTURING LTD. 27
RENEWABLE ENERGY WORLD EUROPE CONFERENCE & EXHIBITION 46
SEL 11
SIPOS AKTORIK 13
SOHRE TURBOMACHINERY, INC. 15
TEDOM 15
TURBOCARE 29
WADE 43
WOOD GROUP GTS BC
YOUNG & FRANKLIN 1
Advertisers’ indexCOSPP Webcard
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1309cospp_48 48 9/9/13 11:28 AM
ADVANCING ASIAíS ENERGY FUTURE
2 ñ 4 October 2013
IMPACT Exhibition & Convention Centre
Bangkok, Thailand
www.powergenasia.com
OWNED AND PRODUCED BY: PRESENTED BY: SUPPORTED BY: OFFICIAL SUPPORTER: SUPPORTING ORGANIZATIONS:
Department of AlternativeEnergy Development and Effciency
POWER-GEN Asia, co-located with Renewable Energy World Asia, is the region’s leading exhibition and conference dedicated to the power generation, renewable energy and transmission and distribution industries.
Attracting 7,000 delegates and attendees from over 60 countries from South East Asia and around the world, nowhere else gives you the opportunity to reach and meet senior executives and industry professionals in one place at the same time, providing key networking and business opportunities.
The POWER-GEN Asia conference has become the major annual platform for the industry to discuss the topics and issues of today and is regularly contributed to with keynote speeches from Government Ministers and Governors of the region’s utility companies.
POWER-GEN ASIA INDUSTRIAL WATER DAY
For the frst time POWER-GEN Asia will include an Industrial Water Day on Thursday 3 October. You can register for this full conference track via the One Day Pass, for just $700. Visit www.powergenasia.com for further information.
JOINT OPENING KEYNOTE SESSION – WEDNESDAY 2 OCTOBER 2013 – 9AM
�� Dr. Twarath Sutabutr, Deputy Director-General, Department of Alternative Energy Development
and Effciency, Thailand
�� Mr. Soonchai Kumnoonsate, Governor of Electricity Generating Authority of Thailand, Thailand
�� Dr. Piyasvasti Amranand, Chairman, Energy for Environment Foundation, Thailand
�� Mr. Markus Lorenzini, Head of Energy Sector, ASEAN Pacifc Cluster, Siemens, Indonesia
TOPICS DISCUSSED AT THE CONFERENCE INCLUDE:
REGISTER TO ATTEND NOW AT: WWW.POWERGENASIA.COMJOIN US IN BANGKOK, THAILAND ON 2 - 4 OCTOBER 2013
EXHIBITION OPENING HOURS:
Wednesday 2 October 2013: 10:30 – 18:00
Thursday 3 October 2013: 10:00 – 18:00
Friday 4 October 2013: 10:00 – 16:00
LEADING INDUSTRY EXHIBITION
Discover new ideas, technologies and developments at
the region’s foremost exhibition for the conventional power
and renewable energy generation industries from leading
companies and suppliers from around the world.
REGISTER TO ATTEND POWER-GEN ASIA
�� Trends, Finance & Planning
�� Power Plant Technologies
�� Operation, Optimization & Servicing
�� Industrial Water
�� Environmental Challenges, Fuel Options &
Distributed Generation
1309cospp_C3 3 9/9/13 11:25 AM
For more information, enter 18 at COSPP.hotims.com
1309cospp_C4 4 9/9/13 11:25 AM
BUYER’S GUIDE TO
EUROPEAN COGEN/CHP2013
EU
RO
PE
AN
CO
GE
N/C
HP
BU
YE
R’S
GU
IDE
20
13
2013EuroCogenCHPBG_C1 1 9/6/13 4:04 PM
2013EuroCogenCHPBG_C2 2 9/6/13 4:07 PM
CONTENTS
1
CHP
European Cogen/CHP Buyer’s Guide 2013
Group Publisher: Glenn Ensor Associate Publisher: Dr. Heather Johnstone Editorial: Mukund Pandit Contributors: Dr F. Riddoch and L. Adendoorf, M.J. Deschamps, J. Dyson, P. Goddard, M. Hanley, M. Kosmides, A. Kureth, K. Nuthall, G. O’Dwyer, A. Osborn, C. Paun and R. Stokes Sales Manager: Natasha ColeDesign: Kajal Patel Production/Listings: Katie Noftsger, Jessica Ross
COVER PHOTOS: Inside Estonia’s Valka wood chip-fred CHP plant; Metso’s DNA system will lie at the heart of a €25 million biomass cogen plant being built in Sweden; Fortum’s frst waste-to-energy CHP plant in Lithuania; GE Jenbacher’s J920 FleXtra gas engine installed at Germany’s Stadtwerk Rosenheim.
This guide has been prepared and published by PennWell International Ltd, The Water Tower, Gunpowder Mill, Powdermill Lane, Waltham Abbey, Essex EN9 1BN, UKTel: +44 1992 656 600, Fax: +44 1992 656 700e-mail: [email protected], web: www.pennwell.com, www.cospp.com
© 2013 PennWell International Ltd. All rights reserved. No part of this publication may be reproduced in any form or by any means, whether electronic, mechanical or otherwise including photocopying, recording or any information storage or retrieval system without the prior written consent of the Publishers. While every attempt is made to ensure the accuracy of the information contained in this guide, neither the Publishers, Editors nor the authors accept any liability for errors or omissions. Opinions expressed in this publication are not necessarily those of the Publishers or Editor.Printed in the UK by Williams Press Ltd.
Director Buyer’s Guide: Sue McAdam, Assistant Director Buyer’s Guide: Jessica Ross, Production Specialist: Lisa Hollis, Senior Database Specialist: Tammy Croft, and Customer Services Specialists: Christine Algie, Sandy Taylor & Linda Smith-Quin
2 Foreword by Dr. Fiona Riddoch,
Managing Director, COGEN Europe
PART 1
4 Growth in Europe despite setbacks
PART 2
10 Benefts of control go beyond effciency
PART 3
16 Success stories point to a bright future
LISTINGS
24 Classifed listings index
25 Classifed listings
31 Company & organization listings
Part 1
Part 3
Part 2
2013EuroCogenCHPBG_1 1 9/6/13 4:13 PM
European Cogen/CHP Buyer’s Guide 20132
CHP
The new European Union Energy
Efficiency Directive 2012/27/EU
(EED) has further reinforced the
urgent need to improve effciency in the
power sector in Europe, with cogeneration
the leading tool included in the legislation
for raising effency in the transformation
sector.
At the same time, the 2020 energy
and climate change goals mean that
technologically Europe’s power grid needs
to be made ‘smart’ to accommodate the
growing contribution of renewable energy
sources, while ensuring security of supply.
Cogeneration or CHP applications in
Europe span a range of capacities and
applications, which together amount to
over 100 GWe of installed capacity. Roughly
50% of this is in space heating (cooling)
applications. The other 50% is in a range
of industrial processes serving industry,
with heat and electricity production tightly
coupled to the process needs. The impacts
of energy and electricity market changes
affect all applications.
In the context of the new call by the
Directorate General Enterprise of the
European Commission to expand the
contribution of industrial production to
the European Union’s (EU) GDP, looking
at the industrial CHP position raises key
questions for all segments of that market.
What are the opportunities for industrial
cogen as the electricity network changes
to a new low-carbon one? What is the
best mode of operation for the grid and
industrial cogenerators in the future?
The EED sends a strong signal to
electricity authorities to facilitate the
development of new markets for balancing
services, demand response and other
services, which are specifically needed
to support the grid operation as the
power mix moves to low carbon. More
intermittent renewables on the network
brings adequacy challenges particularly
from wind and solar PV. The EED contains
the basic principles for the creation of
new markets for both load and supply
management to cope with the increased
mismatch of demand and supply.
Signifcant energy effciency benefts
at the national level come from existing
large industrial cogeneration facilities.
Industrial CHP is first and foremost a
provider of heat to the process it serves
but combining the generation of this heat
with local production of electricity has to
be an attractive business proposition.
With increased levels of intermittent
renewables driving the network to ask
for more flexibility from generators it
is now time to give some thought to
how to manage this needed flexibility,
while continuing to improve the energy-
efficiency records of industries. This
new context further exacerbates the
fuctuating electricity prices in liberalized
power markets and will also call for more
differentiation in grid tariffs according to
the generation and consumption profle of
network users.
Back to the EED, it is clear that
legis lators understood that new
environment by requesting governments
to take action to move the transformation
sector to a higher energy-effciency level.
To that end this legislation reinforces
the priority which should be given to
cogenerated electricity in network access
and dispatch, and also now introduces
the importance of recognizing the ‘need
to ensure continuity of heat supply’ for
the cogen units. Lastly the legislation
encourages electricity regulators to be
more active in energy effciency matters.
In the current European economic
downturn the Directorate General
Enterprise of the European Commission
has called on Member States to collectively
grow the contribution of industrial output
to GDP from 16% to 20% by 2020, as
previously mentioned.
It is therefore worth recalling that
European industry consumed 3668 TWh
of energy in 2010, almost as much as
the commercial and domestic sectors
together. The split of energy use in
industry was roughly twice as much heat
energy as electrical energy. This results
in heat being the critical energy vector
and heat costs driving competitiveness.
Therefore industrial cogeneration plants
contribute significantly to Europe’s
industrial competitiveness today and must
continue to play a key role in its industrial
growth in the future.
Given the EU’s renewed commitment
to cogeneration in the EED and the EU’s
need to defend the competitiveness of
European industry, where cogeneration
plays an important, in the global
marketplace there is a definite need to
ensure the changes that are occurring in
the electricity market do not inadvertently
damage these valuable energy-effciency
savings from the cogeneration sector.
Industrial cogen’s key role in Europe’s evolving energy market
FOREWORD
Dr. Fiona Riddoch
Managing Director
COGEN Europe
www.cogeneurope.eu
2013EuroCogenCHPBG_2 2 9/6/13 4:13 PM
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2013EuroCogenCHPBG_3 3 9/6/13 4:13 PM
European Cogen/CHP Buyer’s Guide 20134
CHP
Growth despite setbacksPART ONE
Finland’s Fortum has invested heavily in the Baltic cogen sector, including a new waste-to-energy CHP plant in the Lithuania city of Klaipeda Source: Fortum
2013EuroCogenCHPBG_4 4 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 2013 5
CHP
Cogeneration has prospered in parts of the region, sometimes defying weak economies and unhelpful policies.
Tightening national government
budgets in Europe have forced the
region’s cogeneration industry to
argue persuasively for public subsidies
and tax breaks, and the right to have equal
treatment with renewables.
Helpfully the implementation of the
European Union’s (EU) Energy Effciency
Directive (EED) is nudging Member States
in that direction, while some investment
has flowed into district heating and
micro-CHP projects.
The region’s economic leader Germany
is showing the way as it pushes ahead with
plans to boost its cogeneration sector.
And even though doubts exist that its
government’s pro-CHP policies are ft for
purpose, they will most likely be tweaked.
With Germany the only EU country
that can be hailed as a serious economic
success, will others follow and expand
their cogeneration sectors, recognising an
industry that delivers supply security and
environmental benefts simultaneously?
GERMAN LEADERSHIP
Germany still leads other EU countries in
terms of the size of its cogeneration sector
and CHP’s share of total power production.
Perhaps this country has more compelling
motives to support the sector than others.
Certainly its decision to phase out
nuclear power in the country by 2022 will
have aided in determining the country’s
Energiewende strategy, which favours
energy saving and renewables, and gives
CHP a leading role.
In 2010 cogeneration produced
90 TWh of electricity, or 15.4% of
Germany’s total. With the Energiewende
now the country’s main policy driver in the
energy sector, this share is slated to rise to
25% by 2020.
Germany’s CHP incentives mainly take
the form of guaranteed premiums added
to the market price of electricity. These
have successfully spurred investment in
recent years but the country’s 2012 CHP
law KWK-G proposed an increase in the
premiums, particularly for CHP projects
less than 2 MW.
The move recognized that the
growth of cogen was falling behind the
rate necessary to meet the 2020 target,
at least partly a consequence of the
economic slowdown and energy market
liberalization. But other incentives are
supporting the CHP sector too.
Berlin has pledged it will do even more
to ensure the 2020 target is met. Will it be
enough?
One sceptic is Wulf Binde, managing
director of the German association of CHP
companies, the BKWK, who is not sure that
the country will reach its 2020 goal without
further measures. ‘It may be that in 2015
we will have to have another revision of the
law,’ he says. ‘Actually the government is
preparing a study to assess the situation
and consider what we have to do next year
to give more support to this sector.’
Binde singles out the government’s
fnancial assistance for small CHP units as
an indication of continued growth: ‘You
can get support from the government
for small utilities, and about 28,000
electricity generating units in Germany are
in the range of 1–50 kW,’ he says. Grants
for such units range from €1500–2000
(US$2000–2700) per installation, although
this support only applies to these utilities.
Germany already has more than 80%
of total microgenerator CHP installations
in the EU, with notable success in family-
sized CHP power plants, which sharply
reduce heat and electricity costs, as well as
cutting carbon dioxide emissions. Despite
continued criticism of support for this
sector, largely from conventional power
companies, there seems little prospect of
signifcant reductions in the aid in the near
future. Aid may even be increased if there
is a danger of missing the 2020 target.
BRITISH POLICY
Cogeneration capacity in the UK increased
nearly 3% to 6.1 GW in 2012, according to
the British government. Installed capacity
rose to meet 6.4% of total electricity
needs. Most strikingly, cogeneration from
renewables rose by almost 20% to account
for more than 8% of total fuel used in
cogeneration.
‘The added capacity was mainly in heat,
and almost all of it is small-scale, with an
average capacity of one-point-something
megawatts,’ says Dr. Tim Rotheray, head
of policy at the London-based Combined
Heat and Power Association (CHPA).
Renewables’ share of power generation
rose from 9.4% in 2011 to a record 11.3%
2013EuroCogenCHPBG_5 5 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 20136
CHP
in 2012 through increased capacity, while
heat from renewable sources leapt by 7%.
The government’s Renewables
Obligation policy is partly driving growth
in renewables CHP by acknowledging
that quality-assured green-feedstock
cogeneration can count towards a
requirement placed on power producers to
increase their green energy output, noted
analyst frm Ricardo-AEA of Oxfordshire,
UK, in March 2013. It expects British cogen
capacity to exceed 12 GWe by 2030, 17%
of which will be from renewables. The
following stories illustrate why.
Germany’s MVV Energie AG is building
a €140 million, 23 MW cogeneration plant
near Sittingbourne in Kent that will burn
old and waste timber. Its start-up date is
spring 2015.
Meanwhile, UK-based ENER-G will this
year supply a cogeneration system of up
to 1.4 MW capacity for a new anaerobic
digestion facility in Dunfermline, Scotland.
An engine from Germany-based MTU, with
an industry-high 42% electrical effciency,
will allow the facility to produce power from
methane biogas from food and garden
waste at a local authority landfll site.
But the big news of the past year was
that heat started fowing last October from
the UK’s largest cogeneration project,
the £500 million ($760 million), 1275
MW plant operated by German utility
E.ON on the Isle of Grain in Kent, next to
project collaborator National Grid’s Grain
liquefed natural gas (LNG) terminal.
New community cogenerat ion
schemes include the waste-to-energy
Bunhill Energy Centre that pipes hot
water to more than 700 homes and other
buildings in Islington in London.
As for government policy, the most
recent signifcant moves have been the
March 2013 announcement of the next
steps in the government’s 2012 Heat
Strategy to ensure that affordable, secure,
low carbon heating plays an important role
in the energy mix.
‘The strategy contains quite ambitious
plans for the growth of CHP, including
a commitment to a gas-fired CHP
policy,’ says DR. Rotheray. The latest
commitment includes £9 million to help
local government develop heat network
schemes running in towns and cities.
GERMANY ALREADY
HAS MORE THAN
80% OF TOTAL
MICROGENERATOR CHP
INSTALLATIONS
IN THE EU
Electricity market reform may also
be helping promote small stand-alone
systems, although not intentionally. By
forcing power producers to operate
in a competitive power market, it is
creating administrative and management
diffculties for small energy players:
‘But all this complexity is leading to a
very attractive market for the non-exporting
small-scale CHP market, which is growing
strongly,’ adds Dr. Rotheray.
FINNISH PROTECTION
Although Finland has created new energy
initiatives and regulations to develop
CHP plants, industrial CHP usage has
shrunk because the national economy is
facing depressed demand for the country’s
goods, especially in Europe.
Statistics Finland reports a fall in
industrial energy consumption in 2012
to 380 TWh, 2% lower than in 2011.
This caused a 7% decline in output from
industry-based CHP units.
In district heating, around 80% of
which in Finland employs cogeneration,
output declined by 11%.
Yet the government successfully
passed a national energy and climate
strategy in March 2013, aiming to create a
decentralized and versatile energy system
based on energy plants large and small,
and diverse energy sources supported by
a state-backed energy technology cluster.
The goal is to raise CHP plants’ share in
total national energy consumption from
22% in 2012 to 35% in 2025. Moreover
the strategy sets a target price for biogas
CHP production of €133.5 per MWh.
Finland will also continue supporting
the construction of cogeneration plants,
especially those linked to renewables such
as wood and biogas, says Pentti Puhakka, a
senior clean energy adviser to the Ministry
of Employment and Economy.
‘CHP is the only fuel-based method
for generating electricity that can reach
levels of effciency of up to 90%,’ he says.
‘Cogeneration systems save 30–40% of
fuel consumption compared with separate
condensed electricity generation and heat
production systems. The effciency of CHP
to reduce emissions and fuel consumption
is often underestimated.’
There is a strong case for developing
CHP combined with district heating and
cooling, as part of the sustainable energy
infrastructure of urban environments, he
adds.
Among new CHP plants from Finnish
companies is Fortum Corporation’s
biofuel-fred facility in Jarvenpaa, north
of Helsinki, commissioned in June and
costing €80 million.
It will produce 280 GWh of heat and
around 130 GWh of electricity per year.
Meanwhile, the Metsä Group started
production in January at its latest CHP
plant, next to its Kerto timber mill. The
€17 million, 160,000 MWh unit will deliver
heat, steam and power to the mill and the
district heating network in Lohja.
BALTIC BRIGHT SPOT
Cogeneration production is booming in
Estonia, Latvia and Lithuania.
Latvian plants now number 132, up
from 83 in 2011, according to the country’s
Central Statistical Bureau.
Their capacity reached 1021 MW,
producing 2339 GWh of electricity and
4688 GWh of heat in 2012, and now
accounting for about 14.5% of Latvia’s
total electricity consumption, contributing
a 6% increase in production capacity last
year.
Yet despite there being more plants,
they are usually small, with an average
generating capacity of 0.2–5 MW.
In neighbouring Lithuania, CHP power
plants that use natural gas, biogas and
wood chips as fuel dominate.
CHP’s growth in this country has been
slower than in Latvia, although Finnish
2013EuroCogenCHPBG_6 6 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 2013 7
CHP
energy company Fortum has invested
heavily in the region’s cogeneration,
opening a waste-to-energy plant in May
in Klaipeda on the coast that will produce
400 GWh of heat and 140 GWh of
electricity per year from 230,000 tonnes
of local biomass and waste, covering 40%
of the city’s energy needs.
Support for the facility included a
€70 million seven-year loan from the
Finland-based Nordic Investment Bank.
Lithuania is also seeking to increase
its use of biomass in CHP by 2020. The
government wants to ensure 22% of power
in the country is generated by CHP plants
run on biomass in cogeneration mode;
12% by biomass CHP in condensation
mode; and 66% using other non-cogen
generators, including imported power.
Regarding projected funding for Lithuania’s
development of biomass cogeneration,
56% will come from loans, 30% from EU
structural regional development funds and
14% from personal capital investment,
say the Lithuanian Renewable Energy
Confederation.
COGENERATION
PRODUCTION IS
BOOMING IN ESTONIA,
LATVIA AND LITHUANIA,
WITH LATVIAN PLANTS
NUMBERING 132, UP
FROM 83 IN 2011,
ACCOUNTING FOR
ABOUT 14.5% OF
TOTAL ELECTRICITY
CONSUMPTION
And in Estonia this May a CHP plant
of electrical and thermal capacities of
2.2 MW and 12 MW, respectively, launched
in Kuressaare, the nation’s westernmost
town.
Local energy company AS Kuressaare
Soojus operates the facility, which uses
a thermal oil boiler and thermal oil
economisers, and will be the largest
medium-capacity plant to be supported
by the Environmental Investment Centre,
a state-owned green technology funding
body that provided the construction
fnance.
Estonia has also announced it will
allocate €200 million from its EU structural
funds budget to support renewables from
2014 to 2020, aiming to supply 20% of
its gross electricity consumption from
cogeneration plants by 2020.
POLISH HITCH
Poland’s market for cogeneration hit a
setback this year when the government
scrapped legislation that would have
replaced an outgoing CHP subsidy scheme
that expired in March.
However, some cogenerat ion
investments are still moving forward,
including the development of plants in
Bialystok, Katowice, Krakow, Lodz and
Poznan, and a 70 MWe plant being built
by Polish oil refning giant PKN Orlen near
its headquarters in Płock, central Poland,
which is due to come on line in 2016.
However, it is unclear when or if
those investments will receive central
government support.
A package of energy laws proposed
earlier this year would have provided
subsidies for CHP investments, but
with Poland’s economy slowing, the
government withdrew it.
Smaller regulations are now being
pushed through piecemeal. An early
measure would provide tax breaks for CHP
and is expected to be passed this autumn.
The law would still need approval from
the European Commission in its capacity
as EU government-subsidy watchdog.
But assuming a public funding framework
is eventually restored, the outlook will
be bright.
EU energy conservation legislation
and its Renewable Energy Directive on
green cogeneration mean that CHP
investment will rise in the country,
according to energy analyst Tomasz Chmal
at Warsaw-based think-tank the Sobieski
Institute.
Poland’s capital is the best example of
the many cities that already use CHP to
provide residents with heat and electricity.
And while the vast majority of
cogeneration facilities in Poland use coal,
according to Chmal, biomass, co-fred and
waste-to-energy systems will surge as the
country looks to meet EU green energy
requirements.
ITALIAN STRIDES
Italy is continuing to promote cogeneration
through a trading scheme for white
certificates. This has proved to be a
particularly suitable support mechanism
for CHP, especially because in September
2011 the country accurately defned who
could access the scheme and how.
Certain high-efficiency producers
can earn the certifcates and then trade
them with power and gas distributors
who may want to fulfll mandatory energy
savings targets that they cannot meet
through their own efforts. Certifcates are
each worth one tonne of oil equivalent
saved.
From last December, changes
to the scheme also allowed energy
services companies that perhaps supply
cogenerated power, and companies
or organizations that have an energy
manager or an ISO 50001-certifed energy
management system in place to trade the
certificates. More than 1.84 million of
which were issued between 3 February and
30 June this year, according to sustainable
energy management authority Gestore
Servizi Energetici. But the scheme’s real
impact on the uptake of cogeneration and
Italy’s efforts to meet EU energy savings
targets is not clear.
The most recent and complete national
fgures came from the Italian Ministry for
Economic Development in 2011. These
showed that Italy’s 53 TWh of cogenerated
power, 18% of the total, is produced
mainly in industrial sectors such as the
petrochemical and refinery industries
with a primary energy mix heavily skewed
towards natural gas.
Meanwhile, an annual report published
in December 2012 on energy effciency
by the Italian National Agency for New
Technologies, Energy and Sustainable
Economic Development said more
significant growth is unlikely without a
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CHP
dedicated incentive scheme that allows
faster payback times for entrepreneurs or
extends more reliable credit to enterprises
looking to invest in cogeneration. And
growth in the Italian CHP market remains
slow despite the country’s attractive
regulatory environment.
A national energy efficiency action
plan has particularly highlighted the
untapped potential for residential
micro-cogeneration, but installation
here is hindered by lengthy bureaucratic
procedures. A bill now before parliament
proposes a 65% tax deduction for
the installation of small and micro-
cogeneration systems to improve building
energy efficiency. This could prove an
appealing incentive.
HELLENIC PUSH
Cogeneration in Greece and Cyprus has
had to contend with economic crises and
largely neutral government policies.
But Greece saw a signifcant increase in
CHP capacity with the grid connection last
year of a high-effciency CHP plant at the
Aluminium SA complex of the Mytilineos
Group in the south of the country. It added
110 MW to the combined 89 MW output of
other CHP plants. And regulatory improve-
ments also helped the sector progress. For
example, the government clarifed rules
for administering and authorising small-
scale CHP connections to the grid.
However, the cash-strapped country
has imposed an additional and temporary
tax on cogeneration operators. July 2012
saw the passing of a ‘solidarity’ levy of 10%
on the prices offered to CHP producers
for their power by LAGIE, the electricity
market operator. The producers argue
that this is unfair and that they should be
charged on the net price after fuel costs
have been accounted for. The levy is to
remain until 30 June 2014.
Greece has also yet to implement EU
Energy Efficiency Directive 2012/27/EU
– an issue that the Hellenic Association
for the Cogeneration of Heat and Power
has raised with the government, given it
is likely to spark further incentives for the
sector. Association president Anastasios
Tosios says Greece’s cogeneration industry
has potential but needs government
recognition of CHP’s role as a primarily
energy saving operation.
He believes it also requires a stable
environment that does not produce
surprises, such as a new levy in 2015 or
2016.
Cyprus has been having an even
tougher time of late, but offcials at the
energy service of the island’s Ministry of
Commerce, Industry and Tourism say CHP
production is rising steadily. Looking at the
largely Greek portion of the island that is
controlled by an internationally recognised
government, CHP output reached
12.47 MW in 2011, up from 11.23 MW
the previous year. The country produced
68,592.94 MWh of electricity and
75,347 MWh of heat from CHP in 2011,
according to the latest available fgures.
Much of the feedstock for these plants
comes from farms, mainly those rearing
pigs, which produce biogas.
The government has introduced two
sponsorship plans for CHP development
and has incorporated into law most
of the relevant EU energy directives,
although this is an ongoing process, say
offcials at the ministry. They note how the
financial crisis has dashed expectations
that cogeneration in Cyprus would reach
62 MWe sooner than the 2020 target date
of the nation’s second plan for energy
effciency.
SPAIN DISAPPOINTS
One disappointment in European
cogeneration has been Spain, where the
sector is facing a sea-change in policy
that would favour renewables over CHP.
Cogeneration accounts for 12% of the
country’s electricity generation, 25% of
its natural gas consumption and 40% of
natural gas used by Spanish industry.
B u t m e a s u r e s i n c l u d i n g
e n e r g y r e f o r m s d e c r e e R e a l
Decreto-Ley 9/2013, approved on
13 July, mean cogenerators will pay more
tax on natural gas than a generator using
that fuel or coal to produce electricity
only, and much more than a wind energy
generator, complains the Asociación
Española de Cogeneración (ACOGEN).
‘The effects will be devastating for the
activity of the paper, ceramics, chemicals,
tiles and food industries, introducing
distortions in competition,’ it says.
An t i c ipa ted November 2013
government figures may confirm that
industrial cogeneration had already been
shrinking from 2011 amid uncertainty over
government plans for the sector. The most
recent statistics from Spain’s Institute for
the Diversifcation and Saving of Energy,
published this February, pre-date the
proposal of the contentious reforms. They
show installed cogeneration capacity
rose to 6.41 GW in 2011 from 6.1 GW
in 2010, with the increase entirely from
industrial cogeneration. The service sector
contribution fell by around 400 MW from
2010–11.
Spain’s overall electricity production
from cogeneration in 2011 was 34.6 GWh.
Of the country’s 730 cogeneration plants
in 2011, most were industrial, including
159 in the food, drink and tobacco sector,
146 in manufacturing and non-metallic
minerals, and 126 in services, according
to Spain’s alternative energy institute the
Instituto para la Diversifcación y Ahorro
de la Energía.
Many of these companies are opposing
the government plans. Manufacturers in the
country create 15–20% of industrial GDP.
Among them, carmakers General Motors,
Opel and SEAT, energy and petrochemicals
companies CEPSA and BP, and food maker
Nestlé backed an ACOGEN campaign in
June against government moves to hobble
cogeneration.
ROMANIA’S FIGHT
Romania’s cogeneration sector has
had to fight for government-supported
investment. It has benefitted from an
energy tax on consumers that aids CHP
investments, but this fund may diminish by
the end of the year, the Romanian energy
minister Constantin Nita announced on
25 July. It is not clear yet, however, how
much the current tax of €5.25 per MWh
will be cut. Nita says the aim is to reduce
companies’ electricity bills to help make
Romanian exports more competitive and
to lower bills for consumers.
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CHP
This support scheme for high-effciency
CHP, which has been in place since April
2011, offers grants to encourage new
investment in cogeneration technology
and to help renew or even replace the
country’s communist-era district heating
systems, with the money being tapped
from funds gathered from the energy tax.
Prime Minister Victor Ponta even
suggested this April that the tax may
disappear entirely from consumers’ bills.
But a few days later Niculae Havrilet,
president of the Romanian Energy
Regulatory Authority (ANRE), contradicted
him: ‘I don’t think we can speak about
eliminating it, but about re-evaluating it
and diminishing it in some cases,’ he said.
According to data from ANRE, Romania
had in April a total installed electrical
capacity of 3617.93 MW associated with
cogeneration, using mainly natural gas and
coal as feedstocks. An increasing number
of new CHP plants are being inaugurated
and built. The Energy Cogeneration
Group, which is part of the Romanian-
British company InterAgro Group, expects
to build four with a total capacity of
60.75 MW, mainly to support its agriculture,
tobacco, chemical and energy-industry
sites. Meanwhile on 9 July the Romanian-
Swedish consortium Genesis Biopartner
opened the first cogeneration plant
fuelled with biogas. This 1 MW facility will
power manufacturing at the country’s meat
processing company Cris-tim.
FRANCE LASPSES
Government policy in France is threat-
ening its recent advances regarding large
CHP plants, an existing stock of around
800 of which, with a total capacity of
5000 MW, can produce an average of 16
TWh of electricity and 22 TWh of heat
annually, according to green energy
association FEDENE. These cogeneration
facilities were largely installed between
1997 and 2001, backed by public
investment subsidies of about €5 billion
that came with the promise that France’s
utilities would buy the power these plants
produced over 12 years. However, these
contracts are now reaching maturity. When
that period expires, these facilities must
sell their electricity on the open market,
which is small in France, where nuclear
dominates and makes the economic
feasibility of continuing these CHP plants
questionable.
However, some new cogeneration
facilities are being installed. Akuo Energy,
a French producer of electricity from
renewables, is investing €150 million
in two new biomass CHP plants via its
subsidiary NEREA. These are among the
frst biomass projects in the country to use
non-recourse fnancing, where repayments
will come from profits alone. One is a
13 MW biomass cogeneration facility,
expected to be operational by the end of
2014, that should produce 100,000 MWh
of electricity per year and 25 tonnes of
steam per hour for the Bonduelle Europe
Long Life food processing factory in
Estrées-Mons in northern France.
The second project is a 16 MW
facility at Ajinomoto Foods Europe’s
food-processing plant in Nesle in the
same region, which began operating in
April 2013, producing 60 tonnes of steam
per hour.
These two projects will cut carbon
emissions in these factories by around
120,000 tonnes per year and will supply
electricity to more than 55,000 homes.
And last year papermaker Smurfit
Kappa Group’s production facility in
Biganos in southwest France became
the country’s largest biomass-based CHP
facility. Dalkia, a subsidiary of Veolia
Environment, installed the 69 MW plant,
which produces 260 tonnes of steam per
hour.
And there is potential for expansion
in the micro-CHP market too. The
government has passed directive
Réglementat ion Thermique 2012,
which sets a new minimum standard for
thermal insulation in residential and other
buildings. This is likely to increase the use
of micro-CHP.
‘Given their extensive nuclear power,
the usage of cogeneration plants is still
in the emerging phase in France,’ says
Suba Arunkumar, energy and environment
industry manager for market analyst Frost
& Sullivan.
CROATIA
The EU’s newest member state Croatia is
optimistic about CHP. The Croatian Energy
Regulatory Agency (HERA) says plans are
in place to ensure cogeneration here
grows signifcantly over the next few years.
It stresses that EU accession would help
promote CHP because the EU’s energy
efficiency directive now applies, which
‘will provide a stable framework for [CHP]
development’.
In June this year, Croatia published a
new act on the thermal energy market.
This includes a number of the directive’s
provisions. In addition, the Ministry of
Economy, which is responsible for the
energy sector, will draft a new act on energy
effciency that may pass into legislation by
the end of this year. It could include more
measures that will promote cogeneration
but the sector is growing anyway.
In 2012, five biomass or biogas
CHP plants with a total output of
4085 MWe started operations, says
HERA. One reason is that Croatia’s
system of feed-in tariffs, which provides
a higher power price for renewables,
has been encouraging investment in
CHP plants based on biomass or biogas,
‘whereas high-effciency [non-renewables]
is apparently not lucrative’, HERA has
reportedly said.
HERA hopes EU development funds
can boost cogeneration in Croatia. The
nation will have access to €11.7 billion
in EU investment over the next seven
years if it proposes suitable projects and
programmes, according to the European
Commission.
‘There are high expectations regarding
funding via EU funds and programmes
for different projects, both structural and
demonstrational,’ says HERA. But further
is work required to produce eligible
proposals.
‘The cogeneration sector has not
delivered an eminent or established player
or representative that would co-ordinate
or lead projects and proposals,’ adds
HERA. Activities are limited to individual
investors, usually supported by regional
energy agencies, local government or
non-proft organizations, it added.
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CHP
Benefts of control go beyond effciency
PART TWO
A Metso DNA energy management system at the heart orchestrates power, boiler, balance of plant, fuel handling and connections to the turbine and the electric system Souce: Metso
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CHP
The European cogeneration sector
has been looking hard for a
competitive edge, and one area of
innovation that has helped it improve its
energy efficiency is in the convergence
of software, control and instrumentation,
the internet and wireless communication,
and smart grids. These are increasingly
infuencing the operations of cogeneration
plants and what opportunities they have.
Various factors show the importance
of improving control systems and
instrumentation in industrial cogeneration
plants, among them the complexity of
operating conditions, the numbers of
boilers and turbines frequently involved,
potentially competing demands from
end users of the power and heat, and the
increasing likelihood that surplus power
will be fed into local and national grids.
Advanced automation is playing an
increasingly signifcant role here as it can
deliver higher effciency, a reduced load
on the environment and lower use of fuel
stock, according to Jukka Pyykkö, product
manager at Metso Automation, a business
division of Finland’s global engineering and
technology company Metso. Automation,
he says, can measure, calculate, estimate
and monitor production effciency, direct
costs, lifetime costs, emissions and how
these parameters interact.
While this is understood by operators
of modern large CHP plants, there is
less awareness among those employing
smaller units. ‘It is not yet clear to every
user that a modern automation system
gives clear benefits when compared
with a simpler PLC [programmable logic
controller] system,’ says Pyykkö. ‘A good
time to upgrade an automation system
is, for instance, in connection with the
modernization of boiler combustion
technology or the steam turbine controller.’
Getting the best from the most
advanced solutions depends on putting in
place automation and information systems
that are expandable and can be integrated
with processes, he adds. Metso’s solution
is Metso DNA Energy Management,
which has a strong foothold, particularly
for European biomass-fred cogeneration
plants, the company says. Metso DNA is
a modular database software system that
allows load and price forecasting, energy
production optimization and electricity
trading.
In response to industry requirements,
it has separate modules so users can tailor
it to their needs without having to spend
time and capital on customising software.
User friendliness is a key goal of software
developers in this field and the Metso
system is designed to be compatible with
the user interface in Microsoft Offce and
Microsoft Internet Explorer.
Similarly reports can be generated
in Microsoft Excel, while users can edit
information pulled into the system’s
database from the plant or manually
add information. This might happen if
operators wish to plug in external forecasts
for example. A separate, simulation
database in the system allows operators to
ask what-if questions about the potential
impact of, say, weather and load scenarios.
With security of both plants and
power grids moving well up the cyber
security agenda this year, the facility to set
individual user passwords and rights is an
important feature of Metso DNA.
Metso DNA technology will lie at the
heart of the €25 million (US$33 million)
biomass-fred cogeneration power plant
in Sweden that Metso is supplying to
Vimmerby Energi & Miljö AB for scheduled
start-up by the end of 2014.
Designed for unmanned operation,
the plant – capacity of 26 MWth and
7 MWe – with a Metso fue gas condenser
also producing 4.5 MWth of heat, requires
sophisticated automation to deal with the
competing demands made on it. These
include hot water for district heating and
local industries, steam for a local brewery,
reduced CO2 emissions and the export
of surplus electricity to Sweden’s national
grid. All this is fred by local forest residues,
such as bark and wood chips.
Automation systems have proved their
worth around Europe. Emerson Process
Management, a division of US-based
Recent implementations of automation and information systems at cogeneration plants show how these technologies not only improve productivity but enhance reliability and cybersecurity too. They will soon even allow CHP demand-side response management.
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CHP
global engineering firm Emerson, reported in June that the
reliability and effciency of a mission critical cogeneration plant
in Cartagena, southeast Spain, had increased since the company
installed the latest version of its Ovation expert distributed control
system there in February 2012.
Ovation has evolved over the years in response to industry’s
needs and comprises computerised controllers throughout
the plant, a data input-output unit and embedded software
applications.
The control systems are split into two sections: one covering
the CHP plant and the other covering the separate package
boilers. As with Metso’s DNA system, it is designed to mesh easily
with the latest developments in communications, data processing
and advanced applications.
At Cartagena, Ovation equipped a natural gas-fired,
95 MW combined-cycle cogeneration facility that needs maximum
availability to prevent interruption of the supply of steam and
power to a neighbouring polycarbonate plastics production site.
EnergyWorks, a subsidiary of Spanish energy giant Iberdrola
Group, operates the cogeneration plant, which is now able to
respond more quickly to changes in demand, Emerson says. The
company also stresses that use of Ovation has extended the
working life of the plant.
One important function that effcient controls can help deliver
is the monitoring of the moisture content of feedstock and the
adjustment of the combustion process for better effciency.
Ovation in its latest form allows biomass-fuelled power plants
continually to undertake these observations and calibrations. A
microwave moisture sensor combines with an Ovation control
system to help reduce maintenance costs says Emerson.
The company explains that biomass fuels vary considerably
in energy content. Fuel with a high moisture content generates
less heat and has a signifcant positive effect on energy recovery
in steam generators.
Controlling combustion by monitoring fue gases and adjusting
the combustion air for best effciency is the traditional solution,
but rapidly changing fuel quality and boiler characteristics can
make maintaining optimum conditions diffcult, according to
Emerson. Its solution is to continually monitor the moisture in
fuel that is feeding into the combustion chamber. The system
includes a small skid platform that every two to three minutes
samples biomass fuel moving into the plant, measures moisture,
then returns the fuel to the transport system.
The moisture sensor connects to Ovation via ethernet
systems. Ovation analyses the data feed to provide fast, accurate
information on temperature and moisture. It then adjusts the
combustion air to match the characteristics of the fuel based
on the master set-point output for MWe, steam or pressure,
and based on the boiler response and the thermal cycle
overall.
‘The variable moisture content of biomass fuels presents a
challenge for operators who are under pressure to maximize
performance from their power plants,’ says Bob Yeager, president
of Emerson Process Management’s Power & Water Solutions.
‘With continuous moisture monitoring data incorporated into the
Ovation control system, operators can make rapid adjustments to
the combustion process to help enable an increase in net yearly
MWh production.’
Emerson adds that a leading power generator in Italy has
evaluated the solution on a 15 MWe, 50 MWth wood chip-
burning power plant whose fuel arrives from various suppliers,
each delivering it with varying levels of moisture. The combustion
process here needs to be continually adjusted for different mixes
of fuel. Continuous monitoring of moisture has helped improve
the plant’s effciency and reduce maintenance costs, Emerson
says.
The example is apt as varied biomass fuels will be a signifcant
feature of the increased complexity that Metso’s Pyykkö expects
to see in cogeneration in the future. He foresees different types
of green energy supplies being connected to common district
heating and cooling networks, as well as national grids.
‘They will be controlled optimally and operated remotely with
advanced automation solutions,’ he says, adding that they will run
on biomass, solar energy, process heat, biogas, waste-to-energy,
wind, heat pumps, natural gas, stored energy, gasifcation or coal
with carbon capture. ‘Automation’s role is to take care of the
ARE STRAY ELECTRICAL
CURRENTS DESTROYING
YOUR MACHINERY?
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CHP
optimum power and heat production based on capacities and
costs,’ he says.
Meanwhile, rising consciousness about the potential for cyber
attacks against power plants and grids has seen Switzerland-
headquartered global engineering company ABB start to
emphasize security features that have been added progressively
to its control systems for the power and water industries.
In a detailed note on these in late 2012, it acknowledged
that, in general, systems delivering comprehensive real-time
information to allow greater reliability and control have become
increasingly interconnected.
The new generation of automation systems uses open
standards and commercial technologies, with particular reliance
on ethernet and TCP/IP-based communication protocols that are
familiar to many internet users and, sadly, to most hackers. With
connectivity to external networks such as company intranets and
the internet itself, operational benefts now go hand-in-hand with
security risks.
As the power industry in general has become more aware
of the threats, it is demanding secure systems. ABB is among
leading solutions providers who claim that cyber security is
embedded in their products. Among its proactive defences
are a centre to test security patches for its software and an
independent site where state-of-the-art security tools assess
products for robustness.
For example, ABB’s Symphony Plus control systems for power
plants allows external communication to an automation and
control system to be routed through a protective frewall and
communication enabled by a virtual private network.
Symphony Plus supports antivirus software, which can also
have different security zones that require different levels of
clearance to access depending on the operator’s role in the
process. This can limit the use of removable media such a pen
drives and disks.
Other standard features are event logging and audit trails,
backup and restore functions, hardened operating systems on
host servers, host server frewalls and security software patch
validation.
Other providers of relevant solutions include America’s
Honeywell, which in June unveiled Cyber Security Dashboard, an
advanced product it claims will help power plants better manage
control-system cyber security.
‘In many ways the control room of the future won’t be limited
to the control room at all,’ says Jason Urso, chief technology
offcer with Honeywell Process Solutions.
The tool is intended to simplify the process of keeping
automation systems up-to-date with cyber security requirements.
It presents data in a single view and allows users to drill down
and access more-detailed content, such as graphics, trends,
documents and applications.
Advanced analytics can generate customised alerts to advise
staff to update antivirus protection, for example, and manage
software security patches. Honeywell expects to roll out Cyber
Security Dashboard worldwide in early 2014.
Meanwhile, smart wireless instrumentation solutions aimed at
reducing downtime in plants including cogeneration facilities are
becoming more sophisticated. Emerson Process Management’s
Rosemount 3051 pressure transmitter, launched in May, transmits
data on fow and pressure in steam, water and compressed air
systems to benchmark energy usage, identify energy savings and
provide energy management and accurate internal billing.
The company claims it has a 10-year power module life,
will be stable for at least fve years and maintenance free, and
will reduce energy costs and increase process effciency while
providing a safer environment for employees.
Emerson contends that equipment failure causes nearly half of
operational downtime, yet many assets go unmonitored because
of cost constraints.
It says the Rosemount 3051 wireless pressure transmitter can
deliver cost savings of 40–60% compared with wired installations.
Wireless technology also means additional measurement points
can be added quickly and economically.
Validating the smart wireless approach, Emerson released
details in March of how this technology is improving operational
effciency by an estimated 5% at a 13.7 MW biomass cogeneration
plant in Faenza, Ravenna province, Italy.
www.tedomengines.com, [email protected], +420 483 363 642
Power range: 80 - 210 kW
Fuels: NG, Biogas, LPG,
Diesel, Biodiesel and others
ENGINES AND GENERATOR SETS
Reliable heart for your
cogeneration unit
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CHP
The facility uses Emerson wireless
devices to monitor complex fuel
pretreatment, incineration and a new
boiler. This supports preventative
maintenance and provides tank overspill
protection.
Some 29,000 local households draw
power from the plant, whose operator
Enomondo burns waste residues from
wine making, and in the process helps to
reduce Italy’s CO2 emissions from power
generation by 35,500 tonnes annually.
Enomondo is a 50/50 joint venture
between wine and denatured alcohol
maker Caviro Distillerie of Treviso and
Italian construction, recycling and waste
disposal company Herambiente.
With the installation of a new boiler at
the plant to increase effciency and capacity
came the need for new instrumentation to
monitor temperature and pressure.
The fuel pretreatment process, which
ensures NOx emissions are less than
half the limit set by law in Italy, had
numerous variables that were not easily
controlled.
Enomondo addressed this problem by
using smart wireless technology because
it offered simpler installation and lower
overall costs than wired solutions. In March
the plant was using 22 smart wireless
transmitters to send data on temperature
and pressure via a wireless gateway to the
plant’s Emerson Delta V digital automation
system. Cost savings came in various
forms.
Infrastructure costs were some 30%
lower than a wired alternative, layout and
wiring costs were halved, and installation
and instrumentation control costs 40%
less, Emerson says.
‘The modularity of Emerson’s smart
wireless technology, the ease and reduced
cost of implementation compared to wired
devices, and its reliability once installed
have encouraged us to expand its use
into other applications,’ says Alessandro
Catani, plant and energy manager for
Enomondo.
Beyond the plant level, connectivity
is also emerging as a strong technology
theme for power distribution networks.
Ageing networks in Europe need more
flexibil ity and robustness to meet
increasing demand while meeting
European Union targets to reduce carbon
emissions by 20% by 2020 compared with
1990.
Members of a UK business-led
consortium are addressing this agenda by
planning a live pilot to validate the model
they have developed to establish active
virtual power plants with CHP clusters
feeding into a Smart Grid.
The organizations planning to go
live after a feasibility study in UK Power
Networks’ London distribution network
are distribution network operator UK
Power Networks, packaged cogeneration
plant supplier ENER-G, combined power,
innovation consultant the Advanced
Digital Institute, and smart grid companies
Flexitricity and Smarter Grid Solutions. The
study launched in July 2012 and received
£100,000 ($155,000) from the British
government-backed Technology Strategy
Board.
The partners have not disclosed
technical results but are satisfied that
they have developed a workable ‘active
demand-response’ supply control model
at a low level in the network, where
many small-scale CHP plants in the range
10 kWe to 1000 kWe and individual
loads are linked to a distribution network
operator’s (DNO) network management
signals in a system that the consortium
calls ‘active CHP-VPP’ (CHP-virtual power
plants). Such loads include building
heating, ventilation and air conditioning
equipment.
‘The requirements for active CHP-VPP
can be used to shape offerings to the
market place in terms of the combination of
aggregation and constraint management
and the required communications
infrastructure,’ the organizations conclude.
The consortium anticipates that by
2015 early-adopter DNOs globally will be
commissioning active, distributed demand
and supply management VPP systems. It
notes: ‘The installed base of small CHP
plants is circa 50 MW in London, 4 GW in
the UK, 100 GW in Europe and 320 GW
worldwide.’
Martin Wilcox, head of Future
Networks at UK Power Networks, told
a London conference in July: ‘We now
want to include demand-side response as
part of our normal activity as trials have
given us confdence that it can work as an
alternative to network reinforcement.
‘We are talking to organizations about
the returns they can make by supporting
London’s electricity network at peak times.’
A microwave sensor reporting to an Ovation management system allows biomass-fred plants to adjust the combustion process for maximum effciency Source: Emerson
2013EuroCogenCHPBG_14 14 9/6/13 4:14 PM
The Russia Power and HydroVision Russia exhibition and conference represents an excellent opportunity to explore business
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2013EuroCogenCHPBG_15 15 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 201316
CHP
Success stories point to bright future
PART THREE
GE Jenbacher’s J920 FleXtra gas engine installed at Stadtwerke Rosenheim in Germany Source: GE
2013EuroCogenCHPBG_16 16 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 2013 17
CHP
If CHP in the region is to continue growing, the industry will have to persuade different markets of cogeneration’s advantages. This showcase of projects of different sizes indicates it is on the right track.
It is reassuring that amid Europe’s
current sluggish economy, cogeneration
companies and projects are innovating,
while expanding CHP capacity across the
continent.
Rivalry is apparent within this industry
but competition also comes in the form
of other energy producers, especially
over the matter of securing government
support . Ult imately cogenerat ion
companies will need to demonstrate how
they can deliver energy-effcient solutions
to a wide range of customers. If they
achieve this, then European cogeneration
will have a sustainable future.
HELPING GERMANY DITCH NUCLEAR
The 9.5 MW prime mover formally
installed in May this year by the municipal
utility Stadtwerke Rosenheim in Bavaria,
Germany, ticks off a number of important
innovations. It is the largest gas engine
yet developed by Austrian company GE
Jenbacher, which sees its product as an
illustration of the role distributed energy is
now playing in Germany’s policy to halt all
nuclear power by 2022 and replace it with
natural gas, renewable energy and greater
use of energy-effcient technologies – the
Energiewende.
‘The most striking feature of the new
gas engine is its electricity effciency,’ says
Anja Pegger of GE Jenbacher, who reels off
statistics concerning its performance. The
J920 FleXtra’s electrical effciency of 48.7%
is the highest in the 10 MW class, she says,
adding that it is ‘about 90% effcient in
cogeneration mode, depending on heat
utilization’.
That last figure is more than three
percentage points better than that of a
single-stage turbocharging gas engine.
And, since about 80% of the operating
costs for gas-fired power plants are for
fuel, this effciency advantage represents
‘signifcant savings’.
One of the goals of the Energiewende
is to increase power from CHP from 15% of
Germany’s electricity supply today to 25%
by 2020. The country is already the largest
single market for CHP in the European
Union (EU), accounting for more than 20%
of the electricity from cogeneration in the
28-member bloc.
GE Jenbacher’s new product joins
four of its existing engines at Stadtwerke
Rosenheim – three 3.35 MW J620 units
and one 4.4 MW two-stage turbocharged
J624 – to give the utility an integrated
cogeneration facility with a capacity of
36 MWe and 44 MWth.
The J920 ‘offers both high effciency
and reliability levels, which makes it the
ideal large gas engine distributed power
solution for industrial and grid stabilisation
applications’, says Karl Wetzlmayer,
general manager of gas engines for power
generation at GE Power and Water, to
which he adds that the unit at Stadtwerke
Rosenheim has a lower carbon footprint
than conventional power plants and
boilers.
The complex as a whole will meet
about 40% of the electricity needs of
Rosenheim, a city of some 61,000 in
the upper-Bavarian Alpine foothills,
and 20% of its heating requirements,
and will also provide power and heat to
industry. Jenbacher’s new engine will assist
Germany’s effort to reduce greenhouse
gas emissions by 40% from 1990 levels
by 2020. The engine’s fast start-up will
add to the utility’s operational fexibility
by helping overcome the challenges of
intermittency caused by adding wind and
solar energy supplies to the electricity
grid, the company says.
The two-stage turbocharging design of
the J920 FleXtra will also help Stadtwerke
Rosenheim meet Germany’s goal to
improve its energy productivity – related
to prime energy usage – by 2.1% annually.
A noteworthy factor in the development
of the plant has been the collaboration
between the city’s public utility and GE
Jenbacher. Germany sets great store
by co-operation between industry and
municipal energy providers. In fact the
company and Stadtwerke Rosenheim
had shared almost a decade of gas
engine innovation and co-operation, and
the Bavarian utility was seen as an ideal
means of showcasing the J920 FleXtra, the
company said in a statement at the May
opening.
2013EuroCogenCHPBG_17 17 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 201318
CHP
GE claims that operating the J920
FleXtra at 48.7% electrical efficiency
provides the capacity to produce more
than 76 GWh of electricity per year. Every
year it will also avoid the consumption of
more than 6.4 GWh of natural gas and the
emission of about 1500 tonnes of CO2,
which the company says is equivalent to
the annual emissions of about 800 cars on
European roads. In cogeneration mode,
the J920 FleXtra’s overall effciency of up
to 90% compares very favourably with the
separate production of heat and electricity
by a natural gas-fred boiler and delivery of
electricity on the EU grid.
The unit’s design allows its use in a
variety of multiple-engine power plant
applications, ranging from remote on-site
supply of solely power to CHP. In the latter
case, operators make use of heat from
jacket water, oil and mixture coolers, and
gas engine exhaust. For the best results
in effciency the heating-water circle has
a return water temperature of 70ºC and
a hot water temperature of 90ºC, says GE
in a background note about the project.
LOW-COST HEAT FROM WOOD
The Baltic States have always had
close links, a new one being the Valka
cogeneration plant on the border of
Latvia and Estonia that began operation
in October last year. Both countries could
beneft from the electricity it generates
but, for now, Latvia is buying the power.
There is talk of expanding supplies across
the border to Estonia, whose nationals
already work at the facility. The site is in
a town through which the international
border between the two states passes.
Estonians call the town Valga, Latvians call
it Valka. The plant operator Eneft Power
and Heat Valka was previously Valkas
Bioenergo kompanija before it was taken
over by Estonia’s Eesti Energia in 2011. The
company’s site is a few hundred metres
from the border on the Latvian side.
The town’s residents are the key
benefciaries of the plant, says Kalev Martin,
head of the Eneft Power and Heat Valka
board. ‘Because of this, the main outcome
of the project is that Valka’s inhabitants are
able to have one of the lowest heat tariffs
in Latvia,’ he says. The charge stands at
€48.59 (US$64.19)/MWh plus a tax of
21%. The Valka plant’s electricity capacity
is 2.4 MW and its thermal capacity 8 MW,
according to Martin. It was built by Dutch
company Imtech Industry International,
under an engineering, procurement and
construction contract.
Enefit Power and Heat Valka used
to provide heat to the town from boiler
houses that burned bio-fuel and fuel oil.
These will still be used as reserve stock for
meeting peak loads but fuel for the new
plant is in the form of wood chips.
Eesti Energia is owned by the Estonian
government and operates in its Baltic
State neighbours Latvia and Lithuania, as
well as in the US and Jordan. The company
operates locally under the name Eesti
Energia and as Enefit for international
operations.
The new plant processes local fuel with
greater effciency than the district heating
plant it replaces. It generates electricity
for Latvia’s power network, operated by
energy company Sadales tikls.
Financial support for the plant’s
€10 million cost of construction came in
the form of €3.5 million from renewable
energy budgets within the EU’s structural
funds for regional development. The
remainder came from the operating
company’s own capital, as well as private
loans.
Sandor Liive, chairman of Eesti
Energia, has welcomed the launch as a
strategic move for the company, saying
it is ‘essential that we can also supply
local electricity on the Latvian market.
From now on, Eneft will try to increase its
market share in Latvia, doing so thanks to
electricity produced on the spot.’
Automation is a feature of Valka. A
conveyor transports the wood chip fuel to
the furnace, which creates high-pressure
steam to drive a turbine connected to a
generator. Burning gases from the furnace
fow through a cleaning system, ensuring
few pollutants are emitted. All the systems
are run by computers from the control
room, which can also be accessed using
remote devices.
‘Currently we are learning to operate
the plant but from next year we plan to test
operating the plant with only one operator
The J920 FleXtra gas engine is currently the largest in GE Jenbacher’s range Source: GE
2013EuroCogenCHPBG_18 18 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 2013 19
CHP
in one shift. Additional specialists will be
present in the plant during working hours
of 8 am to 5 pm,’ says Martin.
Enefit supports CHP and renewable
energy plants, regarding them as a
means to guarantee competitive heat
and electricity prices compared with the
use of fossil fuels, which are often costly.
The company also sources the wood chips
locally, with competing suppliers keeping
fuel prices down.
Enefit points to other opportunities
for new power plants in the Baltic area
that use waste as fuel, noting its already
successfully implemented waste-to-
energy project, Iru, near Tallinn. ‘Enefit
is ready to acquire and realise fnancially
reasonable, new production projects in the
home market area. We are targeting the
renewable source side as well, including
biomass and wind,’ says Martin.
SOLAR DESALINATES SEAWATER
Cyprus’s recent bailout by the International
Monetary Fund, the EU and the European
Central Bank is evidence of its dire
economic situation. Yet the south part
of the island – which is not politically
connected to the north, a self-declared
separate state that is under Turkish rule
– is performing cutting-edge research on
cogeneration based on solar energy and
linked to desalination.
The Cypriot government has put
in place strong incentives for the
development of CHP in the last two
years. Meanwhile, researchers and utility
authorities have worked together to
develop innovative solutions to Cyprus’s
resource needs, notably its thirst for
drinking water from a reliable source.
The result is a solar energy and
desalination project by the Energy,
Environment and Water Research
Centre of the Cyprus Institute that has
been developed in collaboration with
the Electricity Authority of Cyprus, the
US-based Massachusetts Institute of
Technology and the US-based University
of Illinois at Urbana-Champaign. The
scheme is showing great promise.
Cyprus Institute professors Aristides
Bonanos and John Georgiadis at its
Athalassa campus in Nicosia have
supervised the development of technology
for a solar-powered desalination unit that is
now undergoing trials. It has a continuous
energy production capacity of 10 kW
thermal and will produce about 1.5 m3 of
fresh water daily.
A cogeneration plant of this type
produces two products: electricity and
water. ‘The division of driving heat
between the two can vary depending on
market needs,’ says Bonanos. ‘For instance
during the night there is a minimum in
electricity consumption, so the plant could
reduce its electricity output and increase
its water output.’
The plant is being scaled up to a
larger version that will be operational by
summer 2014. It uses heliostats and a
central receiver to harvest solar radiation
and uses thermal energy storage in molten
salts to ensure continuous operation. Its
thermodynamically-optimised Rankine
cycle system produces power that allows
the distillation of seawater.
Bonanos says: ‘The plant will have
a capacity of 50 kW thermal. The
heliostat feld will have a refective area
of approximately 250 m2, concentrating
solar energy onto an innovative integrated
receiver and storage system, designed
by the Cyprus Institute. The receiver will
transfer energy to molten salt, which is
stored in a tank with capacity 600 kWh.’
The €10 million Valka biomass plant was part funded from renewable energy budgets with the EU’s structural funds for regional development Source: Eesti Energia AS
2013EuroCogenCHPBG_19 19 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 201320
CHP
Research driving the construction
of this plant included a technical and
economic feasibility study under the
supervision of the institute’s Professor
Costas Papanicolas into the cogeneration
of electricity and desalinated seawater
using solar energy. The study identifed
technologies suitable for island and
coastal environments, and researched the
economic viability of such a system by
simulating a 4 MWe plant.
The new plant is being built off Cyprus’s
coast to demonstrate the cogeneration
concept in marine conditions, and test
components and subsystems prior to
commercial implementation.
This innovative thermal desalination
system will use a multiple-effect distillation
technique, Bonanos says, that ‘uses heat
to evaporate a quantity of seawater.
The resulting vapours are pure water,
which, when condensed, are the distillate
product of the process. However, during
condensation of the vapour, additional
heat is released, which can be used for
evaporation of a new quantity of seawater,
thus leading to a recycling of energy and
increase in the process efficiency. The
innovation of the system is to use solar
energy to provide the initial heat required
to drive the process.’
One fundamental question the project
aims to address is where the optimal
sources are from which thermal energy
can be drawn to drive this distillation so it
is most effcient.
Research associated with the
demonstration plant will show to what
extent the distillation unit can operate
at variable loads, in contrast with current
industrial practice.
THERE IS A THIRST
FOR SMALL-FOORPRINT,
ACOUSTICALLY
INSULATED SYSTEMS
The work is being organized under the
umbrella of the Cyprus Institute’s ongoing
STEP-EW project, which is co-ordinated by
Papanicolas. It is being funded through the
EU’s INTERREG III Greece–Cyprus 2007–13
Community Initiative, part of an EU
programme that funds joint-development
projects that can assist the economies of
neighbouring countries in the bloc. Money
is also flowing from the EU’s European
Regional Development Fund and the
Greece and Cyprus governments. The
project will also identify alternative suitable
deployment locations for similar projects in
the eastern Mediterranean.
The project addresses a key concern in
the wider Mediterranean region: a severe
water scarcity that results from the arid
climate and the consequences of climate
change.
Precipitation has dropped noticeably
in the past few years and climate models
predict a trend of diminishing rainfall. A
sustainable desalination process may offer
a viable, long-term solution to Cyprus’s
water crisis while avoiding the release of
greenhouse gases that would further spur
climate change, worsening precipitation
and water scarcity.
PACKAGED UNITS DEVELOPMENTS
Technology in the market for packaged
cogeneration continues to be driven by
demand for energy cost reduction, carbon
reduction and resilience of supply, says
Ian Hopkins, sales director for ENER-G
Combined Power.
This UK-based company has installed
natural gas and biogas fuelled units
ranging from 10 kW to 2 MW in the UK,
continental Europe, US, Australia and
Canada, and has been developing and
selling new models. Hopkins says 150 units
passed through its Manchester base in the
12 months to August.
‘We are seeing demand from hospitals,
manufacturing, data centres and other
such mission-critical environments, and
retailers, local and central governments,
agriculture, hotels and the leisure sector,’
he explains. In particular there is a thirst
for small-footprint, acoustically insulated
systems where space is at a premium and
noise control is an issue, he adds.
In response, ENER-G has developed
a Mark II version of its E50 natural gas
fuelled system, redesigned to optimize
space. Electrical output is 50 kWe, total
heat output 79 kWth and fuel input
148 kW/164 kW. It employs a four-stroke
reciprocating MAN E 0834 E 302 engine.
The E50 Mark II is the smallest and
lightest cogeneration package from
ENER-G, says Hopkins.
‘The cost and size reduction has been
implemented without any reduction in
performance or reliability.’ A spokesman
for ENER-G said that the frst order had
been received and the product was ready
for release in the UK, Europe and globally.
ENER-G also launched its Universal
range in summer 2012, claiming it was
one of the smallest, lightest and quietest
Inside the Valka Cogen plant, operated by Eneft Power and Heat Valka, a subsidiary of Eesti Energia Source: Eesti Energia AS
2013EuroCogenCHPBG_20 20 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 2013 21
CHP
outdoor, fully-packaged cogeneration
product ranges available globally.
This range includes electrical outputs
from 90 kW to 125 k W, and was developed
in collaboration with UK supermarket
giant Tesco, which wanted a smaller
footprint system that offers the same
energy cost and carbon savings as large
CHP technologies, but which is faster to
install and commission, and has a reduced
environmental impact in its manufacture.
The Universal system has the power
and same 90% efficiency as the firm’s
traditional large containerised systems
but the products are packed into an
aesthetically appealing weatherproof
enclosure some 40% smaller, 3.5 tonnes
lighter and 5 dBA quieter.
According to ENER-G, it had been
operating in 27 Tesco stores by this July,
when rigorous monitoring demonstrated
‘impressive cost and carbon reduction’.
Hopkins adds that another consumer
trend that his company is seeking to
meet is for improved control technologies
to ensure optimized performance and
improved reporting data. These would
help companies ‘meet compliance
and corporate social responsibility
requirements, while providing data for
claiming financial incentives and tax
exemptions’, he says.
He stresses that ENER-G is planning a
Q4 2013 launch of E-POWER, a new, CHP
control system offering enhanced reporting
functionality and wider compatibility with
existing site energy management systems.
It will interface with E-MAGINE, ENER-G’s
new building energy management system.
In June, German international
engineering group 2G Energy AG
announced production had begun of a
dedicated packaged cogeneration system
that employs an internal combustion
engine that runs on hydrogen, a
combination which the company claims is
a groundbreaking design internationally.
The systems are set up to burn
hydrogen but remain based on the same
modular 6- and 12-cylinder engine series
that powers many 2G cogeneration
products fuelled by natural gas, biogas
or speciality gases. Fluctuating hydrogen
produced by electrolysis is captured by
patented technology for storage as a
solid metal hydride at low pressure. This
greatly improves the security of hydrogen
storage, 2G explained. Storage creates
a permanent supply of hydrogen fuel for
the engines, which can also be run on
natural gas.
Its IL6 and V12 hydrogen-fuelled
engines power 2G’s agenitor 306
(250 kWe) and 312 (450 kWe) natural
gas-fuelled cogeneration systems. The
hydrogen models offer an electrical
efficiency of up to 41%, total efficiency
close to 85% and near zero emissions
of regulated pollutants and CO2. NOx
emissions are also reduced by more than
75%.
The first units have been installed
at Germany’s Berlin Brandenburg Willy
Brandt Airport energy station. More
hydrogen-fuelled cogeneration systems
will reach customers later this year, 2G says.
A company spokesperson adds that 2G is
continuing research into next-generation
hydrogen internal combustion engines
with features to further boost power and
fuel economy.
GROUNDBREAKING TRIAL
Results of a groundbreaking micro-CHP
trial in Malta are expected in late
September following delivery of a high
energy density Stirling engine for an
EU-funded DiGeSPo project.
Distributed CHP GEneration from small
size concentrated Solar Power (DiGeSPo)
is a €4.54 million, three-year project that
has installed a pilot micro-CHP plant at
the pharmaceuticals manufacturing site
of Arrow Pharm, a subsidiary of US drugs
giant Actavis.
It has involved building a modular
1–3 kWe, 3–9 kWth system with a
longer-term goal of providing electrical
power, heating and cooling for single and
multiple domestic dwellings and other
small commercial, industrial and public
buildings.
The technology involves concentrator
optics with moving and tracking
components; evacuated tube collectors
acting as solar absorbers; a heat transfer
fuid and the Stirling engine designed by
project co-ordinators at research institute
Fondazione Bruno Kessler of Trento, Italy;
a generator for the engine; and heating
and cooling systems.
Parabolic dishes of 40 cm diameter
concentrate solar radiat ion onto
evacuated tubes through which thermal
fuid fows and reaches temperatures of
250ºC–350ºC. This allows the engine to
cogenerate heat and power by recovering
its own heat. The project aims to achieve
a global effciency of 60–70% compared
Inside the Valka Cogen plant, operated by Eneft Power and Heat Valka, a subsidiary of Eesti Energia Source: Eesti Energia AS
2013EuroCogenCHPBG_21 21 9/6/13 4:14 PM
European Cogen/CHP Buyer’s Guide 201322
with incident solar radiation. This would
represent a step-change improvement as
similar plants achieve only about 40%, the
project says.
One goal of DiGeSPo is to incorporate
this small hybrid system into residential
buildings. The scope of the project has
gone from initial concept to development.
Its modelling has included the simulation
of sub-modules, followed by production
and testing of prototypes, and production
and feld trials of full system prototypes. If
the results are a success, full dissemination
and exploitation plans will be developed.
Arrow’s involvement is purely as a host.
Its own power needs are far in excess of
what the micro-CHP unit can provide.
‘The project is looking very good,’
says Brian Restall, executive director
of Malta-based Projects in Motion, the
engineering research and consultancy
company handling project management
and information dissemination for
DiGeSPo. He says Arrow Pharm is
proving an ideal test bed: ‘It has hot
water requirements and industrial space
for us to lay out more than we need and
where we can work in a clean and safe
environment without creating any risk for
surrounding properties. Also Actavis is
extremely meticulous, and that has helped
us to refne our protocols.’
Looking to the future, Restal l
suggested a successful concentrated
solar power micro-CHP system could be
useful in reducing Malta’s current almost
complete dependence on fossil fuel.
While a hot climate such as Malta’s
would not fnd the solar thermal component
necessary, the system’s potential to
produce hot water for absorption chillers
to cool homes would be of interest, he
adds. ‘The heating component would
defnitely be of interest further north in
Europe, though.’
Restall says full results will be
presented at a DiGeSPo workshop at
the 2013 International Conference on
Solar Heating and Cooling for Buildings
and Industry, from 23-25 September in
Freiburg, Germany, under the auspices
of the International Energy Agency’s
solar heating and cooling programme
and the European Solar Thermal Industry
Federation.
Other partners in DiGeSPo are
remotely-managed machine maker
Electronic Machining of Italy; Politecnico di
Milano of Italy; lighting and glass specialist
NARVA Lichtquellen of Germany; Uppsala
University in Sweden; and Sustainable
Engine Systems of the UK.
The British company is a research
and development outft that licenses its
technology of heat engines and compact
heat exchangers that are manufactured by
the selective laser melting method.
D i G e S P o ’s p a r t f u n d i n g o f
€3.27 mil l ion from the European
Commission has been provided by the EU’s
outgoing Seventh Framework Programme
for research, which ends in December.
CHP
ENER-G’s Universal range was developed in collaboration with British supermarket chain Tesco Source: ENER-G Combined Power
2013EuroCogenCHPBG_22 22 9/6/13 4:14 PM
CHP
BUYER’S GUIDE TO
EUROPEAN COGEN/CHP2013
24 Classifed listings index
25 Classifed listings
31 Company and organization listings
2013EuroCogenCHPBG_23 23 9/6/13 4:15 PM
24 COSPP GUIDE TO EUROPEAN CHP MARKETS 2013
CHP EU COMPANY CLASSIFIED LISTING INDEX
COMPLETE PLANT
SUPPLY 25
Biomass/waste fred 25Gas fred 25Micro systems 25Other fuel fred 25Solid fuel fred 25Turnkey supply 25
APPLICATIONS 25
Chemical and pharmaceutical industries 25
District cooling 25District heating 25Food industry 25Horticulture or agriculture 25Hospitals and healthcare 25Hotels 25Housing 25Industrial companies 25Leisure, including swimming pools 25Metal refneries 25Offces and commercial buildings 25Oil refning 25Petrochemical industry 25Small-scale domestic 26Surface treatment industry/ceramics 26Wood-processing and paper 26Other 26
FUEL AND INPUTS 26
Biomass 26Coal, solid fuel 26Gas - biogas 26Gas - landfll 26Gas - natural 26Gas - other 26LPG 26Oil 26Pipelines and specialist transport 26Waste 26Water treatment 26Other 26
OUTPUT DISTRIBUTION
AND MARKETING 26
Cold and refrigeration 26Direct mechanical drives 26Electricity 26Emergency power 26Energy commodity trading 26Energy supply 26
Energy transmission 26Heat 26Power conversion systems 26Steam 26Storage of heat and cold 26Thermal oil 26Use of exhaust gases directly 26
BY-PRODUCTS AND
WASTE CONTROL 26
Bypass systems 26Catalytic cleaning systems 26CO2 26Emissions monitoring 26Exhaust gas purifcation 26Exhaust systems 26Flue gas cleaning systems 27Waste oil 27Wastewater 27Water treatment systems 27
COMPONENT SUPPLY
AND MANUFACTURE 27
Absorption chillers 27Alternators 27Batteries 27Boilers 27Burner technology and fuel
processing 27Catalysts 27Cogeneration power plants -
diesel engines 27Cogeneration power plants -
fuel cells 27Cogeneration power plants -
gas engines 27Cogeneration power plants - other 27Energy converters 27Engines - auxiliary power 27Engines - diesel and biodiesel 27Engines - dual fuel 27Engines - gas 27Engines - other 27Filters 27Fogging 27Fuel cells 27Gas compressors 27Gas turbine air inlet cooling 27Generator sets 27Generators 27Heat exchangers 27Heat recovery steam generators 27Industrial fuids and lubricants 27Piping and pipeline components 27
Power generation systems 28Pumps 28Recuperators 28Service and maintenance 28Shell boilers 28Silencers 28Steam generators 28Supplementary fring 28Switchgear 28Transformers 28Turbines - gas 28Turbines - micro 28Turbines - steam 28Turbines - other 28Turbomachinery controls 28Valves 28Waste heat boilers 28Water tube boilers 28Other 28
AUTOMATION
MEASURING AND
CONTROL SYSTEMS 28
Data logging 28Electronics and components 28Emission controls 28Engine management 28Environmental controls 28Furnace and boiler controls 28Instruments, sensors 28Power generation 28Power protection and control 28Process control technology 28Remote monitoring systems 28Safety management systems 28Software 28Testing and monitoring 29Other 29
SPECIALIST SERVICES 29
Commissioning and start-up services 29Construction installation and
engineering 29Consultancy - energy advice and
planning 29Consultancy - environmental policy 29Consultancy - fnancial modelling 29Consultancy - technical 29Consultancy - other 29Contract energy management 29Contract operation and
management 29Design 29Development and joint ownership 29
Emissions trading 29Energy audits 29Energy management 29Energy service companies 29Engineering - cold 29Engineering - electrical 29Engineering - electronic 29Engineering - general 29Engineering - heat 29Engineering - mechanical 29Engineering - oil/gas 29Engineering - power 29Engineering - other 29Feasibility and preinvestment
studies 29General outsourcing services 30Government services 30Information, advice, publications 30Insurance, risk management 30Legal, regulatory 30Market development, marketing 30Market research 30National/regional power system
assessment and planning 30Performance bench marking 30Plant supervision, optimisation 30Policy recommendations, lobbying 30Pollution control 30Procurement 30Project management 30Project technical and economic
evaluation 30Promotion, member representation
and public relations 30Quality control and certifcation 30Research, R&D - academic 30Research, R&D - contract 30Service and maintenance 30Standards, ISO 30Strategic consulting 30System integration 30Tariff systems and analysis 30Technical training, education 30Testing and inspection 30Troubleshooting 30Other 30
FINANCE AND
INVESTMENT 30
Equity investments 30Financial advice 30Project fnance 30
OTHER 30
Miscellaneous 30
COSPP DIGITAL C4
OPRA TURBINE B.V. 3
PGE - REWE 2014 C3
RUSSIA POWER 15
SOHRE TURBOMACHINERY INC 12
TEDOM 13
YOUNG FRANKLIN C2
ADVERTISERS’ INDEX
2013EuroCogenCHPBG_24 24 9/6/13 4:15 PM
COSPP GUIDE TO EUROPEAN CHP MARKETS 2013 25
EU COMPANY CLASSIFIED LISTING CHP
COMPLETE PLANT
SUPPLY
BIOMASS/WASTE FIREDABB Combined Heat and Power LtdBabcock & Wilcox VølundBaumgarte Boiler Systems GmbHBioenergy Technology LtdBoson Energy SACEESE-ULBCochran LtdConversion And Resource Evaluation LtdCraigie Engineering Sales & Services LtdEMGroup BVEqtec Iberia SLE Van Wingen NVFachagentur Nachwachsende Rohstoffe
eV - FNRFlender-GraffenstadenGuttridge LtdKARA Energy Systems BVMagaldi Power SpAMidit SrlMWM GmbHOPRA TurbinesRenewable Power Systems Ltd - RPSSENERStandardkessel GroupTedom sroThorne International Boiler Services LtdXergi Ltd
GAS FIREDAalborg Engineering A/SBowman Power Group LtdCipriani SrlCogenco LtdCraigie Engineering Sales & Services LtdDresser-Rand Co LtdEqtec Iberia SLE Van Wingen NVGE Jenbacher AGiLTEKNOKawasaki Gas Turbine Europe GmbHMETKA SAMitsubishi Turbocharger and Engine
Europe BVStandardkessel GroupTedom sroWärtsilä CorpZOK International Group Ltd
MICRO SYSTEMSBowman Power Group LtdTedom sroThames Renewables
OTHER FUEL FIREDCraigie Engineering Sales & Services LtdEMGroup BVFlender-GraffenstadeniLTEKNOStandardkessel Group
SOLID FUEL FIREDBabcock & Wilcox VølundBaumgarte Boiler Systems GmbHBMH Technology OyCochran LtdMagaldi Power SpAStandardkessel Group
TURNKEY SUPPLYAtilgan Danismanlik EnergyAtlas Copco RentalBaumgarte Boiler Systems GmbHBioenergy Technology LtdBosch Industriekessel GmbH
Burmeister & Wain Scandinavian Contractor A/S
Cochran LtdGamatroniciLTEKNOMETKA SAMitsubishi Turbocharger and Engine
Europe BVSENERStandardkessel GroupThorne International Boiler Services LtdTurbomach SAWaste2Energy (Europe) LtdXergi Ltd
APPLICATIONS
CHEMICAL AND
PHARMACEUTICAL
INDUSTRIESAalborg Engineering A/SAdvanced Cyclone Systems SABernd Gruebel Ingenieure - BGIClaude Lyons LtdCSC SpAEMGroup BVFlexitallic LtdGEA Filtri Gasparini AssociatesGuttridge LtdKawasaki Gas Turbine Europe GmbHLAC ConveyorsMetrologie et Gestion d’Environnement
- MGEOpsis ABSohre Turbomachinery IncSpilling Energie Systeme GmbHSulzer Turbo Services Venlo BVSwan Analytical Instruments AGVoith Turbo BHS Getriebe GmbHYokogawa Europe BV
DISTRICT COOLINGAggrekoAsplan Viak ASBaltimore Aircoil International NV - BACBernd Gruebel Ingenieure - BGIBoson Energy SAiLTEKNOOPRA TurbinesSiemens Industrial Turbomachinery LtdSohre Turbomachinery Inc
DISTRICT HEATINGAalborg Engineering A/SAggrekoBarcelona Grup d’Energia Local -
BARNAGELBernd Gruebel Ingenieure - BGIBoson Energy SABowman Power Group LtdBuro HappoldCenergia Energy ConsultantsCentrax LtdCochran LtdCogenco LtdCraigie Engineering Sales & Services LtdDavid Oakland AssociatesDoosan Skoda PowerFlender-GraffenstadenGE Jenbacher AGiLTEKNOKawasaki Gas Turbine Europe GmbHLithuanian Energy Institute - LEIOPRA TurbinesOpsis ABRizzi EngineeringSiemens Industrial Turbomachinery LtdSohre Turbomachinery IncSpilling Energie Systeme GmbH
Tedom sroVoith Turbo BHS Getriebe GmbH
FOOD INDUSTRYABB Combined Heat and Power LtdAdvanced Cyclone Systems SABritish Sugar plcCentrax LtdCogenco LtdGEA Filtri Gasparini AssociatesGE Jenbacher AGGuttridge LtdLAC ConveyorsSiemens Industrial Turbomachinery LtdSpilling Energie Systeme GmbHSwan Analytical Instruments AG
HORTICULTURE OR
AGRICULTUREBioenergy Technology LtdBowman Heat ExchangersCogenco LtdDresser-Rand Co LtdGICOM BVGuttridge LtdMK ConsultingSeawater Greenhouse Ltd
HOSPITALS AND
HEALTHCAREBernard Matthey Ingénieurs - Conseils SABernd Gruebel Ingenieure - BGICaldic Techniek BVCentrax LtdClaude Lyons LtdClayton of Belgium NVCogenco LtdConstructions Industrielles de la
Mediterrane - CNIMESKO Energy Services and CogenerationGamatronicGE Jenbacher AGMarioff Corp OyMitsubishi Turbocharger and Engine
Europe BVSiemens Industrial Turbomachinery LtdSpilling Energie Systeme GmbHTedom sroVisa Energy GB LtdWoodward Governor Co GmbH
HOTELSBowman Heat ExchangersBowman Power Group LtdCaldic Techniek BVClayton of Belgium NVCochran LtdCogenco LtdConstructions Industrielles de la
Mediterrane - CNIMEC Power A/SMarioff Corp OyTedom sro
HOUSINGABB Combined Heat and Power LtdBarcelona Grup d’Energia Local -
BARNAGELBernard Matthey Ingénieurs - Conseils SABernd Gruebel Ingenieure - BGIBioenergy Technology LtdCEESE-ULBClayton of Belgium NVEnergiestro
INDUSTRIAL COMPANIESAalborg Engineering A/SABB Switzerland Ltd
AggrekoBoth Industrial Services BV - BISCaldic Techniek BVCamfl Farr Power Systems ABClass Instrumentation LtdClayton of Belgium NVCogenco LtdConstructions Industrielles de la
Mediterrane - CNIMDavid Oakland AssociatesDFME Sp zooDoosan Skoda PowerEMGroup BVGEA Filtri Gasparini AssociatesGE Jenbacher AGLAC ConveyorsMarioff Corp OyMETKA SAMetrologie et Gestion d’Environnement
- MGEMinco UK LtdMK ConsultingSiemens Industrial Turbomachinery LtdSohre Turbomachinery IncSpilling Energie Systeme GmbHTurbomach SAUT99 AG Oil Mist EliminatorsWoodward Governor Co GmbHZOK International Group Ltd
LEISURE, INCLUDING
SWIMMING POOLSBernd Gruebel Ingenieure - BGIBowman Heat ExchangersBowman Power Group LtdCaldic Techniek BVClayton of Belgium NVCogenco LtdEC Power A/S
METAL REFINERIESDFME Sp zooDoosan Skoda PowerFlender-GraffenstadenMETKA SAOpsis ABSiemens Industrial Turbomachinery Ltd
OFFICES AND COMMERCIAL
BUILDINGSABB Combined Heat and Power LtdBioenergy Technology LtdBuro HappoldClaude Lyons LtdEC Power A/SMarioff Corp OyMK ConsultingSiemens Industrial Turbomachinery LtdSohre Turbomachinery IncWoodward Governor Co GmbH
OIL REFININGBoth Industrial Services BV - BISCraigie Engineering Sales & Services LtdFlender-GraffenstadenFlexitallic LtdMAN Diesel & Turbo SEMETKA SAMinco UK LtdOPRA TurbinesRizzi EngineeringSiemens Industrial Turbomachinery LtdSohre Turbomachinery IncSpilling Energie Systeme GmbHSulzer Turbo Services Venlo BVVoith Turbo BHS Getriebe GmbHYokogawa Europe BV
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26 COSPP GUIDE TO EUROPEAN CHP MARKETS 2013
CHP EU COMPANY CLASSIFIED LISTING
PETROCHEMICAL INDUSTRYAalborg Engineering A/SBoth Industrial Services BV - BISCentrax LtdClaude Lyons LtdCochran LtdCSC SpADFME Sp zooEMGroup BVFlender-GraffenstadenFlexitallic LtdHeliex Power LtdMarioff Corp OyMETKA SAMinco UK LtdOpsis ABRizzi EngineeringSohre Turbomachinery IncSpilling Energie Systeme GmbHVisa Energy GB LtdVoith Turbo BHS Getriebe GmbH
SMALL-SCALE DOMESTICAseka Consulting LtdBoson Energy SAEC Power A/SEnergiestro
SURFACE TREATMENT
INDUSTRY/CERAMICSGEA Filtri Gasparini AssociatesSohre Turbomachinery IncSpilling Energie Systeme GmbH
WOOD-PROCESSING AND
PAPERBMH Technology OyDoosan Skoda PowerFlexitallic LtdGICOM BVKARA Energy Systems BVKawasaki Gas Turbine Europe GmbHOpsis ABSohre Turbomachinery IncSpilling Energie Systeme GmbHSulzer Turbo Services Venlo BVYokogawa Europe BV
OTHERBoson Energy SACasinghini Heatex SrlCC Jensen LtdClayton of Belgium NVConstructions Industrielles de la
Mediterrane - CNIMDale Power Solutions LtdDe Jong Combustion BVDekomte de Temple GmbHFlexitallic LtdFLSmidth Pfster GmbHMETKA SANew Componit SrlNIFES Consulting GroupSiemens Industrial Turbomachinery LtdSohre Turbomachinery IncWelland & TuxhornWRC PlcYanmar Europe BV
FUEL AND INPUTS
BIOMASSABB Combined Heat and Power LtdAdvanced Cyclone Systems SAAE&E Lentjes GmbHBurmeister & Wain Energy A/S - BWEConversion And Resource Evaluation LtdEnergiestro
Eqtec Iberia SLFachagentur Nachwachsende Rohstoffe
eV - FNRGICOM BVJustsen Energiteknik A/SKARA Energy Systems BVLithuanian Energy Institute - LEISENERSpilling Energie Systeme GmbHSüd-Chemie AGThames RenewablesWärtsilä Corp
COAL, SOLID FUELAdvanced Cyclone Systems SAAE&E Lentjes GmbHBurmeister & Wain Energy A/S - BWEMagaldi Power SpASpilling Energie Systeme GmbH
GAS - BIOGASAPROVIS Energy Systems GmbHCaterpillar SARLClarke Energy LtdCogenco LtdENALCO BVEtudes Chimiques et Physiques - ECPETW Energietechnik GmbHGas Compressors LtdGE Jenbacher AGSiemens Industrial Turbomachinery LtdSüd-Chemie AGTedom sroThe Utile Engineering Co LtdXergi Ltd
GAS - LANDFILLCogenco LtdENALCO BVEtudes Chimiques et Physiques - ECPETW Energietechnik GmbHGas Compressors LtdGE Jenbacher AGRenewable Power Systems Ltd - RPSSiemens Industrial Turbomachinery LtdSüd-Chemie AGTedom sroThe Utile Engineering Co Ltd
GAS - NATURALAalborg Engineering A/SCEESE-ULBClarke Energy LtdCogenco LtdENALCO BVETW Energietechnik GmbHGas Compressors LtdGE Jenbacher AGMAN Diesel & Turbo SEMitsubishi Turbocharger and Engine
Europe BVScottishPowerSENERSiemens Industrial Turbomachinery LtdSpilling Energie Systeme GmbHSüd-Chemie AGTedom sroThe Utile Engineering Co LtdXergi LtdZOK International Group Ltd
GAS - OTHERGE Jenbacher AGSiemens Industrial Turbomachinery LtdSüd-Chemie AGTedom sro
LPGCogenco LtdGE Jenbacher AGSiemens Industrial Turbomachinery LtdSüd-Chemie AGTedom sro
OILAalborg Engineering A/SCC Jensen LtdEC Power A/SEnergiestroExxonMobilMAN Diesel & Turbo SESiemens Industrial Turbomachinery LtdSpilling Energie Systeme GmbHTurbotect LtdZOK International Group Ltd
PIPELINES AND SPECIALIST
TRANSPORTSiemens Industrial Turbomachinery Ltd
WASTEABB Combined Heat and Power LtdAE&E Lentjes GmbHConversion And Resource Evaluation LtdGICOM BVSiemens Industrial Turbomachinery Ltd
WATER TREATMENTOndeo Industrial SolutionsSiemens Industrial Turbomachinery LtdSwan Analytical Instruments AGThames Renewables
OTHERNedstackNEOS Resources PlcSiemens Industrial Turbomachinery LtdYanmar Europe BV
OUTPUT DISTRIBUTION
AND MARKETING
COLD AND REFRIGERATIONApina SA
DIRECT MECHANICAL DRIVESBoth Industrial Services BV - BISFlender-GraffenstadenSpilling Energie Systeme GmbHWoodward Governor Co GmbH
ELECTRICITYAtilgan Danismanlik EnergyBowman Power Group LtdBritish Sugar plcCogenco LtdDresser-Rand Co LtdKARA Energy Systems BVRenewable Power Systems Ltd - RPSScottishPowerSpilling Energie Systeme GmbHTedom sroThames RenewablesWoodward Governor Co GmbH
EMERGENCY POWERE Van Wingen NVMitsubishi Turbocharger and Engine
Europe BVWoodward Governor Co GmbH
ENERGY COMMODITY
TRADINGAtilgan Danismanlik Energy
ENERGY SUPPLYArk Energy LtdMWM GmbHNedstackNEOS Resources PlcScottishPowerTedom sroTurbomach SAWoodward Governor Co GmbH
ENERGY TRANSMISSIONWoodward Governor Co GmbH
HEATABB Combined Heat and Power LtdCogenco LtdDresser-Rand Co LtdKARA Energy Systems BVRenewable Power Systems Ltd - RPSTedom sro
POWER CONVERSION
SYSTEMSWoodward Governor Co GmbH
STEAMAalborg Engineering A/SKARA Energy Systems BVWoodward Governor Co GmbH
STORAGE OF HEAT AND
COLDABB Combined Heat and Power LtdApina SABaltimore Aircoil International NV - BACTermoDeck International Ltd
THERMAL OILKARA Energy Systems BV
USE OF EXHAUST GASES
DIRECTLYSTEJASA Agregados Industriales SA
BY-PRODUCTS AND
WASTE CONTROL
BYPASS SYSTEMSContec GmbH IndustrieausruestungenG+H Schallschutz GmbHREMAZEL Engineering SpASTEJASA Agregados Industriales SA
CATALYTIC CLEANING
SYSTEMSAalborg Engineering A/SAirProtekt LtdEtudes Chimiques et Physiques - ECPIAC Acoustics
CO2
Cogenco LtdTesto Ltd
EMISSIONS MONITORINGAalborg Engineering A/SABB Switzerland LtdCEESE-ULBcmc Instruments GmbH
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COSPP GUIDE TO EUROPEAN CHP MARKETS 2013 27
EU COMPANY CLASSIFIED LISTING CHPCranfeld UniversityDexdyne LtdOpsis ABTesto Ltd
EXHAUST GAS PURIFICATION
AirProtekt LtdGE Jenbacher AGSüd-Chemie AG
EXHAUST SYSTEMS
AAFCamfl Farr Power Systems ABClayton of Belgium NVENALCO BVG+H Schallschutz GmbHIAC AcousticsREMAZEL Engineering SpASTEJASA Agregados Industriales SASüd-Chemie AG
FLUE GAS CLEANING
SYSTEMS
AE&E Lentjes GmbHBabcock & Wilcox VølundBHS Sonthofen GmbHBurmeister & Wain Energy A/S - BWEChemviron CarbonEvonik Fibres GmbHKARA Energy Systems BV
WASTE OIL
Etudes Chimiques et Physiques - ECP
WASTEWATER
Chemviron CarbonCranfeld UniversityGuttridge LtdOndeo Industrial Solutions
WATER TREATMENT SYSTEMS
Chemviron CarbonContec GmbH IndustrieausruestungenCranfeld UniversityDexdyne LtdEco-Tec Europe LtdOndeo Industrial SolutionsPaques BVSwan Analytical Instruments AG
COMPONENT SUPPLY
AND MANUFACTURE
ABSORPTION CHILLERS
Apina SACogenco LtdThermax Europe Ltd
ALTERNATORS
Bowman Power Group LtdDFME Sp zooLeroy SomerMarelli Motori SpAMecc Alte SpAMecc Alte UK LtdVisa Energy GB Ltd
BATTERIES
CIATCrestchic Ltd
BOILERS
Aalborg Engineering A/SAE&E Lentjes GmbHAMBITERMOAnsaldo Caldaie SpA
APROVIS Energy Systems GmbHAseka Consulting LtdBabcock & Wilcox VølundBaumgarte Boiler Systems GmbHBono Energia SpABORSIG Boiler Systems GmbHBosch Industriekessel GmbHBurmeister & Wain Energy A/S - BWECMI EnergyCochran LtdCSC SpAJustsen Energiteknik A/SRely (UK) Precision CastingsSTF SpAThorne International Boiler Services LtdWest Pomerenian University of TechnologyWindhager Zentralheizung GmbH
BURNER TECHNOLOGY AND
FUEL PROCESSING
Burmeister & Wain Energy A/S - BWEDe Jong Combustion BVKARA Energy Systems BV
CATALYSTS
APROVIS Energy Systems GmbHDonau Carbon GmbH & Co KGEtudes Chimiques et Physiques - ECPIAC AcousticsSüd-Chemie AG
COGENERATION POWER
PLANTS - DIESEL ENGINES
Heliex Power LtdMitsubishi Turbocharger and Engine Europe
BVRizzi EngineeringRolls-Royce Marine AS
COGENERATION POWER
PLANTS - FUEL CELLS
Nedstack
COGENERATION POWER
PLANTS - GAS ENGINES
ABB Combined Heat and Power LtdClarke Energy LtdDresser-Rand Co LtdENER-G Combined Power LtdGE Jenbacher AGJames Troop & Co LtdMWM GmbHRizzi EngineeringRolls-Royce Marine ASTedom sroTurbotect LtdWärtsilä Corp
COGENERATION POWER
PLANTS - OTHER
Basler Electric SASEqtec Iberia SLRely (UK) Precision CastingsREMAZEL Engineering SpASiemens Industrial Turbomachinery LtdTechnopa GmbH
ENERGY CONVERTERS
Caldic Techniek BVMidit Srl
ENGINES - AUXILIARY POWER
Mitsubishi Turbocharger and Engine Europe BV
Rolls-RoyceRolls-Royce Marine AS
ENGINES - DIESEL AND
BIODIESEL
ABB Turbo Systems LtdDiesel Power Holland BVDresser-RandEnProFozmula LtdJames Troop & Co LtdMTU Friedrichshafen GmbHPerkins Engines Co LtdRolls-Royce Marine ASYanmar Europe BV
ENGINES - DUAL FUEL
ABB Turbo Systems LtdVisa Energy GB Ltd
ENGINES - GAS
ABB Turbo Systems LtdBernard Matthey Ingénieurs - Conseils SACaterpillar SARLClarke Energy LtdDiesel Power Holland BVDresser-RandEnProGE Jenbacher AGJames Troop & Co LtdMitsubishi Turbocharger and Engine
Europe BVPerkins Engines Co LtdRolls-Royce Marine ASTedom sro
ENGINES - OTHER
ComAp spol sroDiesel Power Holland BVPerkins Engines Co LtdSpilling Energie Systeme GmbH
FILTERS
AAFCamfl Farr Power Systems ABCC Jensen LtdChemviron CarbonContec GmbH IndustrieausruestungenCressall ResistorsDeftec SPRLDonaldson Europe NVEagle Filters LtdEvonik Fibres GmbHG+H Schallschutz GmbHGasTurbineSupportGEA Filtri Gasparini AssociatesJames Troop & Co LtdUT99 AG Oil Mist Eliminators
FOGGING
AxEnergy LtdCamfl Farr Power Systems AB
FUEL CELLS
NedstackSüd-Chemie AGWest Pomerenian University of Technology
GAS COMPRESSORS
EnProGas Compressors LtdMapro International SpAMinco UK LtdThe Utile Engineering Co LtdZOK International Group Ltd
GAS TURBINE AIR INLET
COOLING
AAFAxEnergy LtdCamfl Farr Power Systems AB
GENERATOR SETS
ABZ Aggregate-Bau GmbH & Co KGAggrekoAksa Jenerator Sanayi ASCarlor Engineering SACipriani SrlComAp spol sroCummins Power Generation LtdDiesel Power Holland BVENER-G Combined Power LtdEnergiestroFG Wilson (Engineering) LtdFozmula LtdGE Jenbacher AGHarrington Generators International Ltd
- HGIJames Troop & Co LtdMecc Alte SpAPerkins Engines Co LtdRolls-RoyceRolls-Royce Marine ASSiemens Industrial Turbomachinery LtdTedom sroWood Group GTSWoodward Governor Co GmbH
GENERATORS
AggrekoAtlas Copco RentalCaldic Techniek BVCarlor Engineering SACipriani SrlClayton of Belgium NVDFME Sp zooDiesel Power Holland BVFG Wilson (Engineering) LtdHarrington Generators International Ltd
- HGILeroy SomerMarelli Motori SpAMecc Alte UK LtdMK ConsultingPerkins Engines Co LtdVisa Energy GB LtdYanmar Europe BV
HEAT EXCHANGERS
APROVIS Energy Systems GmbHBaltimore Aircoil International NV - BACBoth Industrial Services BV - BISBowman Heat ExchangersCarlor Engineering SACIATCSC SpAENALCO BVMidit SrlRely (UK) Precision CastingsSeawater Greenhouse LtdSTF SpAUNEX Scambio Termico SrlWest Pomerenian University of Technology
HEAT RECOVERY STEAM
GENERATORS
Aalborg Engineering A/SAnsaldo Caldaie SpAAPROVIS Energy Systems GmbHBono Energia SpAClayton of Belgium NVCMI EnergyCochran LtdSTF SpA
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28 COSPP GUIDE TO EUROPEAN CHP MARKETS 2013
CHP EU COMPANY CLASSIFIED LISTING
INDUSTRIAL FLUIDS AND
LUBRICANTS
ExxonMobilMinco UK Ltd
PIPING AND PIPELINE
COMPONENTS
David Oakland AssociatesSIPOS Aktorik GmbH
POWER GENERATION
SYSTEMS
Basler Electric SASCarlor Engineering SACaterpillar SARLCentrax LtdCopower LLCDresser-RandETW Energietechnik GmbHFranco Tosi Meccanica SpAMAN Diesel & Turbo SENedstackRely (UK) Precision CastingsREMAZEL Engineering SpARolls-RoyceRolls-Royce Marine ASSiemens Industrial Turbomachinery LtdTechnopa GmbHTurbomach SATurbotect LtdWärtsilä CorpWood Group GTSWoodward Governor Co GmbH
PUMPS
KRAL AGVoith Turbo GmbH & Co KG
RECUPERATORS
Rizzi Engineering
SERVICE AND MAINTENANCE
ABB Combined Heat and Power LtdCamfl Farr Power Systems ABEagle Filters LtdFranco Tosi Meccanica SpAGasTurbineSupportMecc Alte SpAPXL SealsRolls-Royce Marine ASWood Group GTSXergi Ltd
SHELL BOILERS
Bono Energia SpABosch Industriekessel GmbHThermax Europe Ltd
SILENCERS
AAFAarding Thermal Acoustics BVCamfl Farr Power Systems ABG+H Schallschutz GmbHIAC AcousticsSTEJASA Agregados Industriales SA
STEAM GENERATORS
Baumgarte Boiler Systems GmbHBono Energia SpABosch Industriekessel GmbHCMI EnergyHitachi Power Europe GmbHTechnopa GmbH
SUPPLEMENTARY FIRING
Aalborg Engineering A/S
SWITCHGEAR
Caldic Techniek BVMatrix Power LtdSiemens Transmission and Distribution Ltd
TRANSFORMERS
Claude Lyons LtdCrestchic LtdDEIF A/SSiemens Transmission and Distribution Ltd
TURBINES - GAS
Copower LLCGasTurbineSupportGEHitachi Power Europe GmbHKawasaki Gas Turbine Europe GmbHMTU Maintenance Berlin-Brandenburg
GmbHOPRA TurbinesRolls-RoyceSiemens Industrial Turbomachinery LtdSulzer Turbo ServicesTurbomach SATurbotect LtdWood Group GTS
TURBINES - MICRO
Bowman Power Group LtdPXL Seals
TURBINES - STEAM
Copower LLCDoosan Skoda PowerFranco Tosi Meccanica SpAHitachi Power Europe GmbHMAN Diesel & Turbo SERolls-RoyceSpilling Energie Systeme GmbHWood Group GTS
TURBINES - OTHER
AxEnergy LtdCranfeld UniversityFranco Tosi Meccanica SpAREMAZEL Engineering SpAWaste2Energy (Europe) LtdWood Group GTS
TURBOMACHINERY
CONTROLS
ABB Turbo Systems LtdVoith Turbo GmbH & Co KG
VALVES
MK ConsultingPXL SealsRegeltechnik Kornwestheim GmbHRely (UK) Precision CastingsRotork PlcSTEJASA Agregados Industriales SAValvulas JolaVoith Turbo GmbH & Co KGWelland & TuxhornWoodward Governor Co GmbHYoung & Franklin Inc
WASTE HEAT BOILERS
Aalborg Engineering A/SBORSIG Boiler Systems GmbHBowman Heat ExchangersRizzi EngineeringWest Pomerenian University of Technology
WATER TUBE BOILERS
Aalborg Engineering A/SBono Energia SpAWest Pomerenian University of Technology
OTHER
Aarding Thermal Acoustics BVAlpine ComponentsCamfl Farr Power Systems ABCarlor Engineering SACC Jensen LtdClaude Lyons LtdCP Power & Automation LtdCrestchic LtdDekomte de Temple GmbHDexdyne LtdDonaldson Europe NVDoncasters Group LtdGasTurbineSupportMagaldi Power SpAMapro International SpAMC ResourcesMECOS AGMidit SrlNew Componit SrlPCH Engineering A/SRotork PlcSohre Turbomachinery IncSulzer Turbo ServicesVoith Turbo GmbH & Co KGWelland & Tuxhorn
AUTOMATION
MEASURING AND
CONTROL SYSTEMS
DATA LOGGING
Opsis ABTesto LtdWoodward Governor Co GmbH
ELECTRONICS AND
COMPONENTS
BFI Automation GmbHDEIF A/SFrank W Murphy LtdKRAL AGSohre Turbomachinery IncSulzer Turbo Services Venlo BVWoodward Governor Co GmbHYokogawa Europe BV
EMISSION CONTROLS
Advanced Cyclone Systems SAContec GmbH IndustrieausruestungenFrank W Murphy LtdMetrologie et Gestion d’Environnement
- MGEOpsis ABUT99 AG Oil Mist Eliminators
ENGINE MANAGEMENT
DEIF A/SDEIF (UK) LtdFrank W Murphy LtdKRAL AGWoodward Governor Co GmbHYoung & Franklin Inc
ENVIRONMENTAL CONTROLS
Opsis ABRenewable Power Systems Ltd - RPSUT99 AG Oil Mist EliminatorsYokogawa Europe BV
FURNACE AND BOILER
CONTROLS
Aalborg Engineering A/SBFI Automation GmbHCochran LtdKARA Energy Systems BV
INSTRUMENTS, SENSORS
Alpine ComponentsBFI Automation GmbHCaldic Techniek BVClass Instrumentation Ltdcmc Instruments GmbHContec GmbH IndustrieausruestungenDEIF (UK) LtdFozmula LtdFrank W Murphy LtdKRAL AGMeggitt Sensing SystemsMTS Sensor Technologie GmbH & Co KGOpsis ABPCH Engineering A/SRegeltechnik Kornwestheim GmbHSohre Turbomachinery IncSwan Analytical Instruments AGTesto LtdWoodward Governor Co GmbHYokogawa Europe BV
POWER GENERATION
ABB Switzerland LtdABB Turbo Systems LtdAtlas Copco RentalBasler Electric SASCamfl Farr Power Systems ABCipriani SrlDee Tech Services LtdDexdyne LtdDresser-RandFlender-GraffenstadenMeggitt Sensing SystemsSimTech Simulation TechnologySohre Turbomachinery IncSulzer Turbo Services Venlo BVTedom sroWoodward Governor Co GmbHYoung & Franklin Inc
POWER PROTECTION AND
CONTROL
ABB Switzerland LtdBasler Electric SASClaude Lyons LtdCP Power & Automation LtdDEIF A/SSiemens Transmission and Distribution LtdSohre Turbomachinery IncTelbit AGWoodward Governor Co GmbHYokogawa Europe BV
PROCESS CONTROL
TECHNOLOGY
ABB Switzerland LtdCrestchic LtdOpsis ABRegeltechnik Kornwestheim GmbHSimTech Simulation TechnologyVoith Turbo GmbH & Co KG
REMOTE MONITORING
SYSTEMS
Alpine Componentscmc Instruments GmbHCogenco LtdComAp spol sroDEIF A/S
2013EuroCogenCHPBG_28 28 9/6/13 4:15 PM
COSPP GUIDE TO EUROPEAN CHP MARKETS 2013 29
EU COMPANY CLASSIFIED LISTING CHPDexdyne LtdFrank W Murphy LtdGasTurbineSupportMeggitt Sensing SystemsMTU Maintenance Berlin-Brandenburg
GmbHOpsis ABPCH Engineering A/SSohre Turbomachinery IncTelbit AGWood Group GTSYokogawa Europe BV
SAFETY MANAGEMENT
SYSTEMS
Aalborg Engineering A/SBFI Automation GmbH
SOFTWARE
Advanced Engineering SrlBowman Power Group LtdDEIF (UK) LtdEMD Deutschland GbROpsis ABSimTech Simulation TechnologySulzer Turbo Services Venlo BVYokogawa Europe BV
TESTING AND MONITORING
Alpine ComponentsBMT Group LtdCaldic Techniek BVcmc Instruments GmbHCrestchic LtdKRAL AGMatrix Power LtdMeggitt Sensing SystemsMTU Maintenance Berlin-Brandenburg
GmbHOpsis ABPCH Engineering A/SSGS GroupSimTech Simulation TechnologySohre Turbomachinery IncTesto Ltd
OTHER
CP Power & Automation LtdGom GmbHRotork PlcSohre Turbomachinery IncTelbit AGYoung & Franklin Inc
SPECIALIST SERVICES
COMMISSIONING AND START-
UP SERVICES
Aalborg Engineering A/SBFI Automation GmbHCMI EnergyDalkia FranceDalkia PlcDee Tech Services LtdNalcoSulzer Turbo Services Venlo BV
CONSTRUCTION
INSTALLATION AND
ENGINEERING
Ansaldo Energia SpABORSIG Boiler Systems GmbHBurmeister & Wain Scandinavian
Contractor A/SCSD Ingenieure AGDale Power Solutions LtdENER-G Combined Power LtdE Van Wingen NV
Franco Tosi Meccanica SpAGE Jenbacher AGGICOM BVMatrix Power Ltdschlaich bergermann und partner, sbp GmbHSENERSRC International A/SSTF SpAWärtsilä Corp
CONSULTANCY - ENERGY
ADVICE AND PLANNING
Ark Energy LtdAsplan Viak ASBarcelona Grup d’Energia Local -
BARNAGELBMT Group LtdCenergia Energy ConsultantsCOWI A/SCSD Ingenieure AGDee Tech Services LtdDelta Energy & EnvironmentE4techEA Technology (Europe) LtdEkoWATT, The Renewable Energy and
Energy Effciency CentreEMD Deutschland GbREqtec Iberia SLInterEnergy SrlJozef Stefan InstituteKantor Management Consultants SAMetrologie et Gestion d’Environnement
- MGEMetron Navitas SAMidit SrlMitsubishi Turbocharger and Engine
Europe BVPRé Consultants BVProgetto Energia SrlRambollRH Energy LtdSustainable Energy Authority of IrelandThames Renewables
CONSULTANCY -
ENVIRONMENTAL POLICY
BMT Group LtdBuro HappoldE4techNIRAS A/SPRé Consultants BV
CONSULTANCY - FINANCIAL
MODELLING
Ark Energy LtdAsplan Viak ASBMT Group LtdCEESE-ULBCOWI A/SDelta Energy & Environment
CONSULTANCY - TECHNICAL
Ark Energy LtdAsplan Viak ASAustex SrlBernd Gruebel Ingenieure - BGIBMT Group LtdCSD Ingenieure AGDarley & AssociatesEA Technology (Europe) LtdEMD Deutschland GbREscoVale Consultancy ServicesFichtner GmbH & Co KGG+H Schallschutz GmbHManens-Tifs SpAMatan International Group LtdMatrix Power LtdNalcoNIFES Consulting Group
NIRAS A/SProgetto Energia SrlRambollSGS GroupSiemens Transmission and Distribution LtdTurbotect Ltd
CONSULTANCY - OTHER
Advanced Engineering SrlBSRIA LtdBuro HappoldCOWI A/SCP Power & Automation LtdEco LtdEnergotechFichtner GmbH & Co KGKreab Gavin AndersonNalcoParsons BrinckerhoffRomanian Energy Regulatory Authority -
ANRESustainable Energy Authority of IrelandT4 Sustainability LtdWRC Plc
CONTRACT ENERGY
MANAGEMENT
BMT Group LtdDalkia FranceDalkia PlcESKO Energy Services and CogenerationNIFES Consulting GroupProgetto Energia Srl
CONTRACT OPERATION AND
MANAGEMENT
Constructions Industrielles de la Mediterrane - CNIM
ENER-G Combined Power LtdESKO Energy Services and CogenerationGE Jenbacher AGMecc Alte SpAOndeo Industrial SolutionsSulzer Turbo Services Venlo BV
DESIGN
Aarding Thermal Acoustics BVAdvanced Engineering SrlBernd Gruebel Ingenieure - BGIBORSIG Boiler Systems GmbHBurmeister & Wain Scandinavian
Contractor A/SBuro HappoldCaterpillar SARLCC Jensen LtdCenergia Energy ConsultantsCOWI A/SDalkia FranceDalkia PlcDe Jong Combustion BVDekomte de Temple GmbHEco LtdG+H Schallschutz GmbHManens-Tifs SpANew Componit SrlNIRAS A/SPRé Consultants BVRambollschlaich bergermann und partner, sbp
GmbHSimTech Simulation TechnologySIPOS Aktorik GmbHSpilling Energie Systeme GmbHSTF SpAWelland & Tuxhorn
DEVELOPMENT AND JOINT
OWNERSHIP
Ark Energy LtdBowman Power Group LtdBurmeister & Wain Scandinavian
Contractor A/SConstructions Industrielles de la
Mediterrane - CNIM
EMISSIONS TRADING
PRé Consultants BV
ENERGY AUDITS
COWI A/SEkoWATT, The Renewable Energy and
Energy Effciency CentreGamatronicInterEnergy SrlProgetto Energia SrlRH Energy Ltd
ENERGY MANAGEMENT
Constructions Industrielles de la Mediterrane - CNIM
Jozef Stefan InstituteSRC International A/SYokogawa Europe BV
ENERGY SERVICE
COMPANIES
Atilgan Danismanlik EnergyProgetto Energia SrlVERBUND AG
ENGINEERING - COLD
Apina SACOWI A/S
ENGINEERING - ELECTRICAL
COWI A/SCP Power & Automation LtdDEIF (UK) LtdFozmula LtdMatrix Power LtdSiemens Transmission and Distribution Ltd
ENGINEERING - ELECTRONIC
CP Power & Automation LtdFozmula Ltd
ENGINEERING - GENERAL
Ansaldo Energia SpAAustex SrlDale Power Solutions LtdGamatronicInterEnergy SrlNIRAS A/S
ENGINEERING - HEAT
CMI EnergyCOWI A/SGE Jenbacher AGRH Energy Ltd
ENGINEERING - MECHANICAL
Dee Tech Services LtdFlender-GraffenstadenG+H Schallschutz GmbH
ENGINEERING - OIL/GAS
Atlas Copco RentalCOWI A/S
ENGINEERING - POWER
ACE Europe
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30 COSPP GUIDE TO EUROPEAN CHP MARKETS 2013
CHP EU COMPANY CLASSIFIED LISTING
Basler Electric SASCipriani SrlCopower LLCDEIF (UK) LtdFichtner GmbH & Co KGMagaldi Power SpAMetron Navitas SAPXL SealsRH Energy LtdSiemens Transmission and Distribution Ltd
ENGINEERING - OTHERCOWI A/SMWM GmbH
FEASIBILITY AND
PREINVESTMENT STUDIESAsplan Viak ASAustex SrlBernard Matthey Ingénieurs - Conseils SACSD Ingenieure AGDarley & AssociatesE4techEagle Filters LtdEA Technology (Europe) LtdEco LtdFichtner GmbH & Co KGInterEnergy SrlManens-Tifs SpAMatan International Group LtdOndeo Industrial SolutionsSRC International A/SThameswey Energy
GENERAL OUTSOURCING
SERVICESESKO Energy Services and CogenerationMetron Navitas SA
GOVERNMENT SERVICESSustainable Energy Authority of Ireland
INFORMATION, ADVICE,
PUBLICATIONSCepheus GroupCOGEN EuropeEkoWATT, The Renewable Energy and
Energy Effciency CentreEnergy InstituteEscoVale Consultancy ServicesEuropean Fuel Cell Forum AGFachagentur Nachwachsende Rohstoffe
eV - FNRFriends of the EarthJozef Stefan InstituteKreab Gavin AndersonSustainable Energy Authority of IrelandUK Combined Heat and Power Association
- CHPA
INSURANCE, RISK
MANAGEMENTACE EuropeBMT Group Ltd
LEGAL, REGULATORYDelta Energy & EnvironmentDundas & Wilson
MARKET DEVELOPMENT,
MARKETINGCepheus GroupDarley & AssociatesEscoVale Consultancy ServicesParker Ward LtdSustainable Energy Authority of Ireland
MARKET RESEARCHCOGEN EuropeEscoVale Consultancy ServicesUK Combined Heat and Power Association
- CHPA
NATIONAL/REGIONAL POWER
SYSTEM ASSESSMENT AND
PLANNINGInterEnergy Srl
PERFORMANCE BENCH
MARKINGBMT Group LtdCepheus Group
PLANT SUPERVISION,
OPTIMISATIONCSD Ingenieure AGGas Compressors LtdMetrologie et Gestion d’Environnement
- MGENalco
POLICY RECOMMENDATIONS,
LOBBYINGDelta Energy & EnvironmentFriends of the Earth
POLLUTION CONTROLAAFAirProtekt LtdBMT Group LtdConversion And Resource Evaluation LtdEkoWATT, The Renewable Energy and
Energy Effciency CentrePRé Consultants BV
PROCUREMENTMatan International Group LtdRamboll
PROJECT MANAGEMENTBernd Gruebel Ingenieure - BGIBORSIG Boiler Systems GmbHDee Tech Services LtdFichtner GmbH & Co KGGE Jenbacher AGMatan International Group LtdParsons BrinckerhoffRamboll
PROJECT TECHNICAL AND
ECONOMIC EVALUATIONAustex SrlE4techEco LtdEMD Deutschland GbRMatan International Group Ltd
PROMOTION, MEMBER
REPRESENTATION AND
PUBLIC RELATIONSCOGEN EuropeJozef Stefan InstituteParker Ward LtdUK Combined Heat and Power Association
- CHPA
QUALITY CONTROL AND
CERTIFICATIONBabcock & Wilcox VølundSGS Group
RESEARCH, R&D - ACADEMICGamatronicJozef Stefan Institute
RESEARCH, R&D - CONTRACTBernard Matthey Ingénieurs - Conseils SABMT Group LtdCenergia Energy ConsultantsCOGEN EuropeEA Technology (Europe) LtdEnergotechschlaich bergermann und partner, sbp GmbHWRC Plc
SERVICE AND MAINTENANCEAalborg Engineering A/SAksa Jenerator Sanayi ASAnsaldo Caldaie SpAAtlas Copco RentalBurmeister & Wain Scandinavian
Contractor A/SClarke Energy LtdClass Instrumentation LtdCochran LtdDale Power Solutions LtdDekomte de Temple GmbHMecc Alte SpAMTU Maintenance Berlin-Brandenburg
GmbHMWM GmbHPXL SealsSulzer Turbo Services Venlo BVTedom sroThorne International Boiler Services LtdVoith Turbo BHS Getriebe GmbHWood Group GTS
STANDARDS, ISOEnergotechEnergy Institute
STRATEGIC CONSULTINGCepheus GroupDelta Energy & EnvironmentE4techEco LtdEnergotechEscoVale Consultancy Services
SYSTEM INTEGRATIONEMD Deutschland GbROpsis ABSimTech Simulation Technology
TARIFF SYSTEMS AND
ANALYSISSRC International A/S
TECHNICAL TRAINING,
EDUCATIONCaldic Techniek BVCepheus GroupCOGEN EuropeConversion And Resource Evaluation LtdCranfeld UniversityEkoWATT, The Renewable Energy and
Energy Effciency CentreEnergy InstituteGE Jenbacher AGLithuanian Energy Institute - LEIMTU Maintenance Berlin-Brandenburg
GmbHNIRAS A/SUK Combined Heat and Power Association
- CHPA
TESTING AND INSPECTIONAlpine ComponentsAnsaldo Caldaie SpABSRIA LtdClass Instrumentation LtdEagle Filters LtdEA Technology (Europe) LtdMTU Maintenance Berlin-Brandenburg
GmbHNalcoschlaich bergermann und partner, sbp GmbHSGS GroupSulzer Turbo Services Venlo BVWood Group GTS
TROUBLESHOOTINGClass Instrumentation LtdEagle Filters LtdMTU Maintenance Berlin-Brandenburg
GmbHNalcoRH Energy LtdThorne International Boiler Services LtdUT99 AG Oil Mist EliminatorsWood Group GTS
OTHERAarding Thermal Acoustics BVCC Jensen LtdDale Power Solutions LtdDekomte de Temple GmbHEnergy InstituteEuropean Fuel Cell Forum AGFriends of the EarthGET ENERGY Gerhard Brandel MAPCH Engineering A/SRomanian Energy Regulatory Authority -
ANREYanmar Europe BV
FINANCE AND
INVESTMENT
EQUITY INVESTMENTSAtilgan Danismanlik EnergyThe Black Emerald GroupDalkia FranceDalkia PlcESKO Energy Services and Cogeneration
FINANCIAL ADVICEAalborg Engineering A/SThe Black Emerald GroupCaterpillar SARLEnergy4All LtdKreab Gavin AndersonMetron Navitas SAThameswey Energy
PROJECT FINANCEThe Black Emerald GroupENER-G Combined Power LtdMetron Navitas SASGS Group
OTHER
MISCELLANEOUSBEES - Bioenergy Events and ServicesCIATCP Power & Automation LtdDavid Oakland AssociatesEnergy InstituteEvonik Fibres GmbHFlender-GraffenstadenSohre Turbomachinery Inc
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COSPP GUIDE TO EUROPEAN CHP MARKETS 2013 31
EU COMPANY & ORGANIZATION LISTING CHP
AAAF
Bassington Ln, Cramlington, Northumberland NE23 8AF, UK, +44 1670 713 477, www.aafintl.comDesigns and manufactures gas turbine air flters, inlet cooling, inlet/exhaust ducts and silencers, and acoustic enclosures/barriers.
AALBORG ENGINEERING A/S
Sofiendalsvej 93, PO Box 755, Aalborg DK-9100, Denmark, +45 9631 3950, [email protected], www.aalborg-engineering.comServes customers with different boilers based on reliable boiler designs.
AARDING THERMAL
ACOUSTICS BV
Industrieweg 59, Nunspeet 8071 CS, The Netherlands, +31 341 252 635, [email protected], www.aarding.comDevelops and supplies products and services for sound absorbing and more.
ABB COMBINED HEAT AND
POWER LTD
Stonefield Works, Oulton Rd, Stone, Staffordshire ST15 0RS, UK, +44 1785 825 160, [email protected], www.abb.comActive in the UK power generation and combined heat and power marketplace.
ABB SWITZERLAND LTD
Bruggerstr 72, Baden 5400, Switzerland, +41 58 585 34 64, [email protected], www.abb.com/powergenerationProvides integrated power and automation solutions for all types of power generation and water plants.
ABB TURBO SYSTEMS LTD
Bruggerstr 71a, Baden CH-5401, Switzerland, +41 58 585 7777, [email protected], www.abb.com/turbochargingManufactures and maintains turbochargers for 500 kW to 80+ MW diesel and gas engines on ships, power stations, gensets, diesel locomotives and large, off-highway vehicles.
ABZ AGGREGATE-BAU GMBH
& CO KG
Gutenbergstr 11, Henstedt-Ulzburg D-24558, Germany, +49 4193 90360, [email protected], www.abz-power.comManufactures diesel generator sets applicable for a wide range of stationary and mobile power solutions.
ACE EUROPE
100 Leadenhall St, London EC3A 3BP, UK, +44 20 7173 7469, [email protected], www.acegroup.comProvides insurance, fnancial and service products to the power generation industry.
ADVANCED CYCLONE
SYSTEMS SA
Rue de Salazares, 842, Centro de Empresas Net - Edifício Promonet, Porto 4149-002, Portugal, +351 225 322 097, [email protected], www.advancedcyclonesystems.comDesigns and distributes cyclone systems on a global level, contributing to a healthier environment and the growth of clients competitivity, while maintaining high standards of quality.
ADVANCED ENGINEERING
SRL
Via Monte Bianco 34, Milano I-20149, Italy, +39 02 4547 3703, [email protected], www.advancedengineering.itConsults on zero-energy buildings, HVAC design, renewable energies, and CHP.
AE&E LENTJES GMBH
Daniel-Goldbach-Str 19, Ratingen D-40880, Germany, +49 2102 166 0, [email protected], www.aee-lentjes.deOffers combined-cycle power plants, circulating fuidised bed combustion, waste-to-energy plants, desulphurisation technologies, DeNOx plants, electro flters and more.
AGGREKO
120 Bothwell St, Glasgow G2 7JS, UK, +44 141 225 5900, www.aggreko.comProvides rental energy solutions including power generation, heating and cooling, and compressed air systems to industrial, commercial, and event-related companies worldwide.
AIRPROTEKT LTD
Newton Hall, Newton, Cambridge, Cambs CB22 7ZE, UK, +44 1223 872 933, [email protected], www.airprotekt.co.ukSpecialises in the control of VOCs, CO and NOx. Offers exhaust engine catalysts, SCR and catalysed soot flters.
AKSA JENERATOR SANAYI AS
Gülbahar Caddesi, 1 Sokak, Günesli-Istanbul 34212, Turkey, +90 212 478 66 66, [email protected], www.aska.com.trManufactures gasoline, diesel, natural gas and marine generating sets, lighting towers and generator hardware.
ALPINE COMPONENTS
14-15 Oban Rd, St Leonards-on-Sea, East Sussex TN37 7DX, UK, +44 1424 437 000, [email protected], www.alpine-components.co.ukSupplies test and measurement instruments to major industrial companies around the world since 1991. The aim is to distribute easy-to-use and reliable instruments, and provide training and support.
AMBITERMO
Zona Industrial de Cantanhede Lote 37, Cantanhede 3060-197, Portugal, +351 231 410 210, [email protected], www.ambitermo.comDevelops and designs boilers and energy recovery systems.
ANSALDO CALDAIE SPA
Largo Buffoni 3, Gallarate, (VA) 21013, Italy, +39 0331 738 111, [email protected], www.ansaldoboiler.itOffers utility boilers (subcritical through to ultra-supercritical), HRSGs behind GTs to 260 MWe, biomass and waste-to-energy boilers, in-furnance NOx emission reduction, rehabilitation, fuel conversion, and retrofts of existing boilers.
ANSALDO ENERGIA SPA
Via N Lorenzi 8, Genova 16152, Italy, +39 010 6551, [email protected], www.ansaldoenergia.itProvides power generation and produces thermoelectric power generation plants.
APINA SA
Marques de la Ensenada, 2, Madrid 28004, Spain, +34 91 540 00 88, [email protected], www.apina.comProvides ammonia absorption systems, ammonia compression systems and refrigeration systems.
APROVIS ENERGY SYSTEMS
GMBH
Ornbauer Str 10, Weidenbach D-91746, Germany, +49 9826 6583 0, [email protected], www.aprovis-gmbh.deSupplies heat recovery solutions and catalysts for CHP plants and gas treatment solutions.
ARK ENERGY LTD
39 Upper Cranbrook Rd, Bristol BS6 7UR, UK, +44 117 914 7158, [email protected], www.ark-energy.comOffers business planning and project development expertise in the energy sector, particularly in renewable energy including onshore and small wind, solar, wave and tidal, biomass, anaerobic digestion and biofuels.
ASEKA CONSULTING LTD
Haapapurontie 101, Veikkola 02880, Finland, +358 400 433 640, [email protected], www.asekaconsulting.comOffers renewable energy (biomass) consultations, primarily in Africa.
ASPLAN VIAK AS
Kjørboveien 12, Sandvika NO-1300, Norway, +47 40407853, [email protected], www.asplanviak.noProvides an international consultancy specialising in services related to energy and environment.
ATILGAN DANISMANLIK
ENERGY
Dolapdere Cad 87/2, Pangalti/Sisli, Istanbul 34077, Turkey, +90 212 4386388, [email protected], www.eskoenergy.comOffers energy investments consultancy, energy services, and project origination and development.
ATLAS COPCO RENTAL
Pearce Ave, W Pitkerro Industrial Estate, Dundee DD5 3SS, UK, +44 1382 778 999, [email protected], www.atlascopcorental.co.ukProvides innovative and competitive compressed air and power generation rental solutions. Combines leading edge technology, reliable equipment and a total rental offering to optimise business needs.
AUSTEX SRL
3 via Brisa, Milano 20123, Italy, +39 02 3657 0811, [email protected], www.austex.euProvides consulting, design and engineering services on energy effciency, renewable energy, cogeneration, and technical due diligence for developing projects.
AXENERGY LTD
Talstr 35-37, Pfaeffikon, Schwyz CH-8808, Switzerland, +41 55 416 6670, [email protected], www.ctfog.comDesigns evaporative, fogging, wet compression, high fogging and upstream cooling systems for the power generation market. Suitable for all types and sizes of gas turbines.
BBABCOCK & WILCOX
VØLUND
Falkevej 2, Esbjerg 6705, Denmark, +45 7614 3400, [email protected], www.volund.dkSupplies equipment and technologies designed to convert household waste and biomass into thermal energy worldwide.
BALTIMORE AIRCOIL
INTERNATIONAL NV - BAC
Industriepark-Zone A, Heist-op-den-Berg 2220, Belgium, +32 15 257 700, [email protected], www.baltimoreaircoil.euDevelops, manufactures and distributes heat transfer products.
BARCELONA GRUP
D’ENERGIA LOCAL -
BARNAGEL
c/o Green Box, PO Box 10095, Barcelona, Catalunya E-080080, Spain, +34 932081504, [email protected], www.energiasostenible.orgIs a local energy agency, SAVE agency and consultancy providing district heating and domestic services.
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CHP EU COMPANY & ORGANIZATION LISTING
BASLER ELECTRIC SASPAE Les Pins, Wasselonne F-67319, France, +33 3 88 87 10 10, [email protected], www.basler.comSpecialises in generator/motor excitation control solutions including digital excitation systems, voltage regulators (AVR), digital protection systems, protective relays, automatic synchronisers, genset control devices, generator control renovation, and technical training.
BAUMGARTE BOILER SYSTEMS GMBHSenner Str 115, Bielefeld 33647, Germany, +49 521 9406 0, [email protected], www.baumgarte.comSupplies turnkey power plants and components for industrial and municipal energy supply. Coal, gas, oil, RDF, waste, as well as waste heat, are used for generating clean energy.
BEES - BIOENERGY EVENTS AND SERVICES28 Blvd Gambetta, Lons le Saunier 39000, France, +33 3 84 86 89 30, [email protected], www.bees.bizOrganises bioenergy exhibitions and conferences worldwide.
BERNARD MATTHEY INGÉNIEURS - CONSEILS SALa Grande-Fin 19, Montezillon-NE CH-2037, Switzerland, +41 32 731 53 53, [email protected], www.masai-conseils.comConsults on renewable energy and ground storage of thermal energy.
BERND GRUEBEL INGENIEURE - BGIAnton Bruckner Str 4, Bad Vilbel, Hessen 61118, Germany, +49 6101 505459, [email protected], www.bgi-online.deOffers consulting services for building equipment. Designs HVAC and electrical systems for all properties and property management support.
BFI AUTOMATION GMBHEggerscheidter Str 57, Ratingen D-40883, Germany, +49 2102 9682 0, [email protected], www.bfi-automation.deOffers fame monitoring systems and bus compatible compact fame controllers for multiburner and fuel applications. Special fame scanners for gas turbines and sulpher recovery systems available.
BHS SONTHOFEN GMBHAn der Eisenschmelze 47, Sonthofen D-87527, Germany, +49 8321 6099 0, [email protected], www.bhs-sonthofen.deProvides innovative, cost-effective engineered technology and process solutions for the following applications: mixing, crushing, recycling and solid-liquid fltration.
BIOENERGY TECHNOLOGY LTDFarley Farm, Muddles Green, Chiddingly, Near Lewes, East Sussex BN8 6HW, UK, +44 1825 890 140, [email protected], www.bioenergy.orgSupplies and installs log, wood pellet and wood chip boilers from 3 kW domestic to 4 MW industrial, including advice on storage to suite site. Is a microgeneration registered installer.
THE BLACK EMERALD GROUP31 Harley St, London W1G 9QS, UK, [email protected], www.blackemerald.comInvests in and advises on green technology companies and projects.
BMH TECHNOLOGY OYPO Box 32, Rauma FI-26101, Finland, +358 2 486 6800, [email protected], www.bmh.fiProvides complete processing lines, power generation, fuel receiving and crushing systems.
BMT GROUP LTDGoodrich House, 1 Waldegrave Rd, Teddington TW11 8LZ, UK, +44 20 8943 5544, [email protected], www.bmt.orgIs a worldwide maritime consultancy employing over one thousand engineers, scientists and technologists in energy and environment, transport and defence.
BONO ENERGIA SPAVia Resistenza 12, Peschiera Borromeo, (MI) 20068, Italy, +39 02 5530 2848, [email protected], www.bono.itProvides fre tube and water tube boilers, hot water heaters, hot oil heaters and furnaces, waste heat recovery steam generators and fash coil boilers.
BORSIG BOILER SYSTEMS GMBHEgellsstr 21, Berlin D-13507, Germany, +49 30 4301 01, [email protected], www.borsig.de/bsOffers fred boilers (up to 420 t/h), waste heat recovery boilers (WHRB), and power plant engineering.
BOSCH INDUSTRIEKESSEL GMBHNürnberger Str 73, Gunzenhausen D-91710, Germany, +49 9831 56 0, [email protected], www.bosch-industrial.comManufactures steam and hot water boilers in all sizes and capacities.
BOSON ENERGY SA29 Blvd du Prince Felix, Luxembourg LU-1513, Luxembourg, +352 20 40 40 20, [email protected], www.bosonenergy.comProvides sustainable distributed energy solutions and small-scale CHP to energy entrepreneurs and various industries utilising local biomass with technology, complete systems and methods supported by education and training.
BOTH INDUSTRIAL SERVICES BV - BIS161 Joke Smitkade, PO Box 6007, Vlaardingen 3137ZL, The Netherlands, +31 10 249 7046, [email protected], www.bisboth.nlSupplies fans, fan stacks, gear boxes, carbon fbre drive shafts, cooling towers and air coolers.
BOWMAN HEAT EXCHANGERSChester St, Birmingham B6 4AP, UK, +44 121 359 5401, [email protected], www.ejbowman.co.ukSupplies exhaust gas heat exchangers as well as units suitable for reclaiming thermal energy from jacket water, charge air and oil, making them ideal for CHP systems.
BOWMAN POWER GROUP LTDOcean Quay, Belvidere Rd, Southampton SO14 5QY, UK, +44 23 8023 6700, [email protected], www.bowmanpower.comProvides advanced exhaust energy recovery technologies for reciprocating engines, which are the dominant plant for power generation in remote areas, for biomass energy applications, and for heavy vehicles.
BRITISH SUGAR PLCOundle Rd, Peterborough, Cambs PE2 9QU, UK, +44 1733 563 171, [email protected], www.britishsugar.co.ukUtilises a power generation system that produces steam and electricity.
BSRIA LTDOld Bracknell Ln W, Bracknell, Berks RG12 7AH, UK, +44 1344 465 600, [email protected], www.bsria.co.ukProvides research and consulting for energy and the built environment.
BURMEISTER & WAIN ENERGY A/S - BWELundtoftegårdsvej 93A, Kgs Lyngby DK-2800, Denmark, +45 39 45 20 00, [email protected], www.bwe.dkSpecialises in the design and supply of advanced steam boilers for utility and biomass-fred power stations. Also designs low-NOx burners, APH, GGH, FGD plants and offers boiler maintenance.
BURMEISTER & WAIN SCANDINAVIAN CONTRACTOR A/SGydevang 35, PO Box 235, Allerod DK-3450, Denmark, +45 48 14 00 22, [email protected], www.bwsc.dkSupplies tailor-made turnkey diesel, CHP and biogas/biomass plants worldwide.
BURO HAPPOLDCamden Mill, Lower Bristol Rd, Bath BA2 3DQ, UK, +44 1225 320 600, [email protected], www.burohappold.comProvides an engineering consultancy for the design of low-energy buildings.
CCALDIC TECHNIEK BVPostbus 660, AR Rotterdam 3000, The Netherlands, +31 10 415 6622, [email protected], www.caldic.comIs a representative and stockholder of generators, switchboards, instruments and power management systems.
CAMFIL FARR POWER SYSTEMS ABPO Box 155, Boras 503 08, Sweden, +46 33 178 500, [email protected], www.camfilfarr.comProvides auxiliary equipment for turbo machinery, diesel engines and compressors on a global basis. Offers air inlet and exhaust systems, enclosures and ventilation, diverter dampers, air flters and aftermarket service.
CARLOR ENGINEERING SAAve Albert 1er 87, Grivegnée B-4030, Belgium, +32 4 384 01 97, [email protected], www.carlor.comManufactures electric tank style preheaters for engines with liquid cooling systems. Systems are mostly used to preheat generators sets.
CASINGHINI HEATEX SRLVia Attiraglio 5, Palazzolo Sull’Oglio, (BS) 25036, Italy, +39 030 740 2831, [email protected], www.casinghini.comOffers economisers, waste heat boilers, tank heating coils, soot blowers, spiral fntubes, longitudinal fntubes, and studded tubes.
CATERPILLAR SARL76 Rt de Frontenex, Geneva 1211, Switzerland, +41 22 849 44 44, [email protected], www.cat.comSupplies natural and biogas engines. Designs and builds power systems.
CC JENSEN LTDUnit 26 Enterprise City, Meadowfield Ave, Spennymoor, Co Durham DL16 6JF, UK, +44 1388 420 721, [email protected], www.ccjensen.co.ukProvides off-line oil fltration and separation for CHP plants.
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COSPP GUIDE TO EUROPEAN CHP MARKETS 2013 33
EU COMPANY & ORGANIZATION LISTING CHPCEESE-ULB
44 Ave Jeanne, CP 124, Brussels 1050, Belgium, +32 2 650 33 77, [email protected], www.ulb.ac.be/ceeseOffers economic and social assessment including environmental benefts, energy saving, balance, air and water pollution, smart meters, clean vehicles, and evolutionary economics.
CENERGIA ENERGY
CONSULTANTS
Herlev Hovedgade 195, Herlev 2730, Denmark, +45 44 66 00 99, [email protected], www.cenergia.dkOperates as an engineering consulting frm specialising in energy saving technologies for buildings.
CENTRAX LTD
Shaldon Rd, Newton Abbot, Devon TQ12 4SQ, UK, +44 1626 358 000, [email protected], www.centraxgt.comManufactures gas turbine powered generator sets ranging from 4 to 66 MW. Uses industrial gas turbines supplied by Rolls-Royce and Siemens for cogeneration, base load, oil and gas and more.
CEPHEUS GROUP
4 Rue Des Glycines, Bron 69500, France, +33 4 72 48 37 48, [email protected], www.cepheusgroup.comProvides support to build up and optimise feld service organisation and trains people for high-quality customer service.
CHEMVIRON CARBON
Zoning Industriel C, Feluy 7181, Belgium, +32 64 511 811, [email protected], www.chemvironcarbon.comManufactures activated carbons, purifcation systems and associated services. Offers mobile equipment reactivation.
CIAT
Ave Jean Falconnier, BP 14, Culoz 01350, France, +33 4 79 42 42 42, [email protected], www.ciat.comOffers chillers, heat exchangers, air treatment products and products for heat management on engine CHP/gensets. The DRYPACK range of biogas drying systems treats 50 to 6000 Nm3/h gas.
CIPRIANI SRL
Via Ranuccio Bianchi Bandinelli 30, Rome 00178, Italy, +39 06 7932 0245, [email protected], www.ciprianienergy.itProvides electric generation, cogeneration and solar installations.
CITYENERGO
Prospekt Marshal Zhukova 76/2, Moscow 123103, Russian Federation, +7 495 7894196, [email protected], www.cityenergo.netProvides gas turbine, gas and diesel engine power plants as single or combined cycle and fxed, containerised or mobile versions. Fully automated with remote monitoring. Offers engineering, supply, installation, PM and emergency service country-wide (Russia/CIS/Ukraine).
CLARKE ENERGY LTD
Power House, Senator Point, S Boundary Rd, Knowsley Industrial Pk, Liverpool L33 7RR, UK, +44 151 546 4446, [email protected], www.clarke-energy.comDistributes and is a service provider for GE Energy’s Jenbacher gas engines. Offers sales, engineering, project management, installation, commissioning and maintenance.
CLASS INSTRUMENTATION
LTD
837 Garratt Ln, London SW17 0PG, UK, +44 20 8333 2288, [email protected], www.classltd.comDesigns and manufactures hand-held liquid level meters for tanks and cylinders, leak detectors for isolating leaks in any pressurised system and related instrumentation.
CLAUDE LYONS LTD
Brook Rd, Waltham Cross, Hertfordshire EN8 7LR, UK, +44 1992 768 888, [email protected], www.claudelyons.co.ukManufactures and supplies energy-saving voltage regulators, voltage stabilisers, transformers and UPS.
CLAYTON OF BELGIUM NV
Rijksweg 30, Bornem B-2880, Belgium, +32 3 890 57 00, [email protected], www.clayton.beSupplies steam generators and boilers for industrial process steam systems, both waste heat and exhaust gas fred.
CMC INSTRUMENTS GMBH
Hauptstr 388, Eschborn D-65760, Germany, +49 6173 320078, [email protected], www.cmc-instruments.deOffers OilQSens, a unique oil quality monitoring system for high-voltage transformers, turbines and all oil insulated/lubricated systems that is more sensitive, less expensive and easier to install than DGA.
CMI ENERGY
1 Ave Greiner, Seraing 4100, Belgium, +32 4330 2428, [email protected], www.cmigroupe.comSpecialises in the design, supply, construction and commissioning of heat recovery steam generators for combined cycles, cogeneration, and ISCC. Develops steam generators for CSP.
COCHRAN LTD
Newbie Works, Annan, Dumfries & Galloway DG12 5QU, UK, +44 1461 202 111, [email protected], www.cochran.co.ukOffers industrial steam and hot water boilers, industrial biomass and waste heat boilers, spares, servicing, hiring, training, retubing, water treatment, effciency upgrades and burners.
COGENCO LTD
Parsonage Farm Business Pk, Parsonage Way, Horsham, West Sussex RH12 4AL, UK, +44 1403 272 270, [email protected], www.cogenco.comSupplies a range of environmentally friendly packaged CHP units.
COGEN EUROPE
Ave des Arts 3-4-5, Brussels 1210, Belgium, +32 2 772 8290, [email protected], www.cogeneurope.euOperates as a European association for the promotion of cogeneration.
COMAP SPOL SRO
Kundratka 2359/17, Prague 8 180 00, Czech Republic, +420 246 12 111, [email protected], www.comap.czSpecialises in creating electronic control and management solutions for use in the power generation industry and drive power markets.
CONSTRUCTIONS
INDUSTRIELLES DE LA
MEDITERRANE - CNIM
35 rue de Bassano, Paris 75008, France, +33 1 44 31 11 00, [email protected], www.cnim.comManufactures and contracts for municipal waste incineration and more.
CONTEC GMBH
INDUSTRIEAUS-RUESTUNGEN
Aegidienberger Str 69, Bad Honnef D-53604, Germany, +49 2224 9893 0, [email protected], www.contec-umwelt.deOffers fltration systems and components including oil mist separators/oil mist eliminators, liquid flters, like wedge wire flters, air/gas flters and liquid level measurement technology. Provides clean solutions on demand.
CONVERSION AND
RESOURCE EVALUATION LTD
83 Church Rd, Holywood, Co Down BT18 9BY, UK, +44 2890 397 811, [email protected], www.care.demon.co.ukOffers specialised technical consultancy in bioenergy and waste-to-energy by thermal conversion, mainly in pyrolysis gasifcation and to a lesser degree, combustion.
COPOWER LLC
Ohaka 4, Muraste, Harku, Harjumaa 76905, Estonia, +372 517 1111, [email protected], www.copower.eeProvides cogeneration, gensets, wind generators, wind turbines, solar panels, solar water heaters, heat pumps, water boilers and more.
COWI A/S
Parallelvej 2, Kongens Lyngby DK-2800, Denmark, +45 56 40 00 00, [email protected], www.cowi.comOffers consulting engineers for district heating, cogeneration, biogas, energy-from-waste, energy planning and management.
CP POWER & AUTOMATION
LTD
3 Fairfield Ct, Seven Stars Industrial Estate, Coventry CV3 4LJ, UK, +44 24 7621 4799, [email protected], www.cppowerautomation.comOffers power conversion equipment, inverters and DC/DC converters.
CRAIGIE ENGINEERING
SALES & SERVICES LTD
45 Hamnavoe, Stromness, Orkney Islands KW16 3JQ, UK, +44 780 291 6577, [email protected], www.cess.co.ukSpecialises in the appraisal/valuation, sourcing, marketing and relocation of surplus power plant and ancillary equipment.
CRANFIELD UNIVERSITY
Cranfield, Bedford MK43 0AL, UK, +44 1234 754 086, [email protected], www.cranfield.ac.uk/environmentFocuses on gas turbine technology. Offers education and training for the power industry.
CRESSALL RESISTORS
Evington Valley Rd, Leicester, Leicestershire LE5 5LZ, UK, +44 116 273 3633, [email protected], www.cressall.comManufactures load banks, neutral earthing resistors, braking and flter resistors.
CRESTCHIC LTD
2nd Ave, Centrum 100, Burton upon Trent, Staffordshire DE14 2WF, UK, +44 1283 531 645, [email protected], www.crestchic.co.ukDesigns and manufactures AC and DC load banks for sale and rent.
CSC SPA
Via Lago Maggiore 7, Schio, (VI) 36015, Italy, +39 0445 575 989, [email protected], www.csc-schio.comDesigns and constructs stainless steel and exotic material vessels.
CSD INGENIEURE AG
Hessstr 27d, Liebefeld/Bern CH-3097, Switzerland, +41 31 970 35 35, [email protected], www.csd.chProvides environmental technology, waste management, and biogas utilisation.
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34 COSPP GUIDE TO EUROPEAN CHP MARKETS 2013
CHP EU COMPANY & ORGANIZATION LISTING
CUMMINS POWER GENERATION LTDManson Pk, Columbus Ave, Manston Ramsgate, Kent CT12 5BF, UK, +44 1843 255 000, [email protected], www.cumminspower.comProvides generating sets, diesel driven, emergency/standby, mobile and silenced power system components.
DDALE POWER SOLUTIONS LTDSalter Rd, Eastfield Industrial Estate, Scarbough, North Yorkshire YO11 3DU, UK, +44 1723 583 511, [email protected], www.dalepowersolutions.comIs a national service and maintenance provider and manufactures generators, UPS, batteries, switch mode products, diesel generators, generator sets and gas turbines globally.
DALKIA FRANCEQuartier Valmy, Espace 21, 33 place ronde, Paris la Défense 92981, France, +33 1 71 00 71 00, www.dalkia.comDevelops a range of services focused on energy and environmental effciency.Offers clients proven expertise in developing, constructing and operating greener and more economical energy systems.
DALKIA PLCElizabeth House, 56-60 London Rd, Staines, Middlesex TW18 4BQ, UK, +44 1784 496 200, [email protected], www.dalkia.co.ukProvides energy and integrated services management.
DARLEY & ASSOCIATES3A Empingham Rd, Stamford, Lincolnshire PE9 2RH, UK, +44 1780 759 100, [email protected], www.energyfromwaste.comConsults on cogeneration, heat recovery and power generation.
DAVID OAKLAND ASSOCIATES33 Aire View, Snaith, Goole DN14 9TE, UK, +44 1405 860 011, [email protected], www.steamacc.co.ukDesigns and consults on steam accumulators and steam accumulation control systems.
DEE TECH SERVICES LTDClwyd Close, Harwarden Industrial Pk, Hawarden, Flintshire CH5 3PZ, UK, +44 1244 530 100, [email protected], www.deetech.co.ukServices the engineering and process sector for new construction projects and maintenance/shutdown programmes. Has the skill and reputation to complete any project.
DEFITEC SPRL16 Rue Michel Verbeck, Waterloo B-1410, Belgium, +32 23 540610, [email protected], www.defitec.comOffers replacement flters, elements, and cartridges for gas turbines air intake, hydraulic and oil systems.
DEIF A/SFrisenborgvej 33, Skive DK-7800, Denmark, +45 96 14 96 14, [email protected], www.deif.comSupplies green, safe and reliable control solutions for decentralised power production, marine/offshore and wind turbines. Has companies in Europe, Asia and the Americas.
DEIF (UK) LTD8 Acorn Business Pk, Heaton Ln, Stockport, Cheshire SK4 1AS, UK, +44 161 429 4940, [email protected], www.deif.comOffers generator controls and power management systems for gas and diesel engines, wind/hydro controls, marine bridge and switchboard instrumentation. Global support and training available.
DE JONG COMBUSTION BVGravelandseweg 390, Schiedam NL-3125 BK, The Netherlands, +31 10 446 9222, [email protected], www.dejongcombustion.comDesigns, engineers, manufactures and supplies combustion equipment.
DEKOMTE DE TEMPLE GMBHWalinusstr 13, Seligenstadt D-63500, Germany, +49 6182 210 14, [email protected], www.dekomte.comDesigns, manufactures, installs and maintains fabric/metal expansion joints.
DELTA ENERGY & ENVIRONMENT15 Great Stuart St, Edinburgh EH3 7TS, UK, +44 131 625 1011, [email protected], www.delta-ee.comConsults on CHP market development, energy and emissions trading issues.
DEXDYNE LTDOakley House, Tetbury Rd, Cirencester, Gloucestershire GL7 1US, UK, +44 1285 658 122, [email protected], www.dexdyne.comProvides solutions for remote monitoring and control of dispersed processes/equipment over the internet. The solutions provide such facilities as data consolidation, SMS alerts, charts, trends and reports.
DFME SP ZOOFabryczna 10, Wroclaw 53609, Poland, +48 71 356 54 00, [email protected], www.dfme.plManufactures generators and motors in its internal design shop, manufacturing facility, and in-house test station. Has over 65 years of history under the Dolmel, ABB Dolmel Drives and DFME brands.
DIESEL POWER HOLLAND BVOostelijke Randweg 18, Industrial Estate Moerdijk M111, Moerdijk NL-4782 PZ, The Netherlands, +31 168 388 488, [email protected], www.dieselpowerholland.comBuys and sells reconditioned diesel and natural gas engines and generator sets.
DONALDSON EUROPE NVResearch Pk Zone 1, Interleuvenlaan 1, Leuven B-3001, Belgium, +32 16 38 3811, www.donaldson.comProvides complete fltration systems and separation products for compressed air systems.
DONAU CARBON GMBH & CO KGGwinnerstr 27-33, Frankfurt am Main 60388, Germany, +49 69 4011 650, [email protected], www.donau-carbon.comProvides powdered, granular and extruded activated carbon and flters.
DONCASTERS GROUP LTDMillennium Ct, First Ave, Centrum 100, Burton-on-Trent, Staffordshire DE14 2WH, UK, +44 1332 864 900, [email protected], www.doncasters.comSupplies airfoils, rings, casings and combustion systems for gas turbine engines.
DOOSAN SKODA POWERTylova 1/57, Plzen 301-28, Czech Republic, +42 378 185 000, [email protected], www.doosanskoda.comProduces and supplies equipment for steam turbine machine halls of power plants.
DRESSER-RANDBarrio De Oikia, 44, PO Box 30, Zumaia, Gipuzkoa 20759, Spain, +34 943 865205, [email protected], www.guascorpower.comSupplies diesel and gas engines providing customised energy solutions across worldwide energy infrastructure markets based upon reciprocating engine power systems technologies.
DRESSER-RAND CO LTD85 Papyrus Rd, Peterborough, Cambridgeshire PE4 5HG, UK, +44 1733 292 200, [email protected], www.dresser-rand.comSupplies custom-engineered rotating equipment solutions for long-life, critical applications in the oil, gas, petrochemical, and process industries globally. Products include turbines and CHP systems.
DUNDAS & WILSONSaltire Ct, 20 Castle Ter, Edinburgh EH1 2EN, UK, +44 131 288 8000, [email protected], www.dundas-wilson.comProvides legal services with particular experience in CHP and waste-to-energy.
EE4TECH83 Victoria St, London SW1H 0HW, UK, +44 20 3008 6140, [email protected], www.e4tech.comConsults on sustainable energy. Provides services relating to technology, policy and business across a wide range of energy areas.
E4TECHAve Juste-Olivier 2, Lausanne 1006, Switzerland, +41 21 331 1570, [email protected], www.e4tech.comConsults on sustainable energy. Provides services relating to technology, policy and business across a wide range of energy areas.
EAGLE FILTERS LTDKalervonkatu 10, Kotka 48600, Finland, +358 10 420 3070, [email protected], www.eaglefilters.fiOffers high-quality air inlet flters for gas turbine power plants.
EA TECHNOLOGY (EUROPE) LTDCapenhurst Technology Pk, Chester, Cheshire CH1 6ES, UK, +44 151 347 2369, [email protected], www.eatechnology.comOperates as an energy technology consultancy with considerable expertise embracing electrical energy storage systems, demand side management, distributed generation, fuel cells, hydrogen systems and development of independent safety case reviews.
ECO LTDPO Box 900, Bromley, London BR1 9FF, UK, +44 20 3012 0130, [email protected], www.ecoharmony.comProvides expertise in market creation and project formulation in the sustainable energy and climate change sector.
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COSPP GUIDE TO EUROPEAN CHP MARKETS 2013 35
EU COMPANY & ORGANIZATION LISTING CHPECO-TEC EUROPE LTDUnits 5C D&E Ring Rd, Zone 2 Burntwood Business Pk, Burntwood, Staffordshire WS7 8JQ, UK, +44 1543 683 086, [email protected], www.eco-tec.comProvides acid purifcation systems and water treatment systems.
EC POWER A/SSamsoevej 25, Hinnerup DK 8382, Denmark, +45 87 43 41 00, [email protected], www.ecpower.euProvides a decentralised energy system that uses cogeneration to produce both electricity and heat. Has fuel effciency rates of over 96% in some cases.
EKOWATT, THE RENEWABLE
ENERGY AND ENERGY
EFFICIENCY CENTREBubenská 6, Svabky 2, Praha 170-00, Czech Republic, +420 266 710 247, [email protected], www.ekowatt.czProvides RE and EE consultants in auditing, planning, feasibility, training, policy and analysis.
EMD DEUTSCHLAND GBRBreitscheidstr 6, Kassel D-34119, Germany, +49 561 310596 0, [email protected], www.emd.dkOffers design and planning software for wind farms and cogeneration projects.
EMGROUP BVHandelsweg 5, Geleen 6163 AJ, The Netherlands, +31 45 404 1617, [email protected], www.emgroup.nlOffers customised combustors, dryers, gasifcation, pyrolisys, incinerators (solids, liquids and gases), pulsating combustors and RTO oxidation, cogeneration and steam turbines.
ENALCO BVHonderdland 305, Maasdijk 2676 LV, The Netherlands, +31 174 510155, [email protected], www.enalco.nlDesigns and manufactures exhaust gas heat exchangers, silencers, valves and chimneys for CHP installations.
ENER-G COMBINED POWER
LTDENER-G House, Daniel Adamson Rd, Salford, Manchester M50 1DT, UK, +44 161 745 7450, [email protected], www.energ.co.uk/chpWorks with businesses and organisa-tions to reduce their building carbon footprint, energy consumption and costs using the company’s UK-manu-factured effcient CHP systems from 4 kW–10 MW.
ENERGIESTRO6 rue des 13 Langues, Chateaudun 28200, France, +33 2 37 96 15 40, [email protected], www.energiestro.comOffers hybrid, grid-independent cogeneration from biofuels with fywheel energy storage.
ENERGOTECHPod Kostanji 8, Ljubljana 1000, Slovenia, +386 142 92030, [email protected], www.energotech.grOffers energy consultancy, research and development of solar thermal equipment.
ENERGY4ALL LTDUnit 26 Trinity Enterprise Centre, Furness Business Pk, Barrow-in-Furness, Cumbria LA14 2PN, UK, +44 1229 821 028, [email protected], www.energy4all.co.ukDelivers community-owned renewable energy.
ENERGY INSTITUTE61 New Cavendish St, London W1G 7AR, UK, +44 20 7467 7100, [email protected], www.energyinst.orgIs the chartered professional membership body for the global energy industry, providing learning and networking opportunities, professional recognition and energy knowledge resources for individuals and companies.
ENPROKirkkonaklar Mah 232 Sok, 1/13, Cankaya, Ankara 6400, Turkey, +90 312 496 3507, www.enproindustries.comManufactures and markets industrial sealing products, seals for heavy-duty trucking, metal polymer and flament wound bearings, reciprocating compressor components, and diesel and natural gas-fred engines.
EQTEC IBERIA SLGarbí, 13, Parets del Vallès, Barcelona E-08150, Spain, +34 93 5739981, [email protected], www.eqtec.esOffers biomass gasifcation power plants, RDF gasifcation, cogeneration power plants, microcogeneration, and PV power.
ESCOVALE CONSULTANCY
SERVICES1 Brightlands Rd, Reigate, Surrey RH2 0EP, UK, +44 1737 230 820, [email protected], www.escovale.comOffers worldwide consultancy and management reports on distributed generation and energy storage.
ESKO ENERGY SERVICES
AND COGENERATIONDolapdere Cad 87/2, Pangalti/Sisli, Istanbul 34007, Turkey, +90 212 438 6388, [email protected], www.eskoenergy.comInvests, fnances and operates power plants at customers’ sites for many years and assumes all the risk of the investment.
ETUDES CHIMIQUES ET
PHYSIQUES - ECP22 Rue Denis Papin, La Ferte St Aubin 45240, France, +33 9 63 57 13 12, [email protected], www.glidarc-tech.comDesigns biogas cleaning systems from H2S and mercaptans and biogas upgrading via its partial reforming into hydrogen.
ETW ENERGIETECHNIK
GMBHFerdinand-Zeppelin-Str 19, Moers D-47445, Germany, +49 2841 9990 0, [email protected], www.etw-energie.deProvides turnkey cogeneration (CHP) units from 200–2000 kW driven by gaseous fuels, including biogas, sewage gas, landfll gas, mine gas and natural gas.
EUROPEAN FUEL CELL
FORUM AGObgardihalde 2, Adligenswil-Luzern CH 6043, Switzerland, +41 44 586 5644, [email protected], www.efcf.comOrganises globally relevant fuel cell conferences based on facts and physics in Lucerne, Switzerland. The SOFC conference is held in even years, the PEFC conference is held in odd years.
E VAN WINGEN NVDurmakker, PO Box 27, Evergem 9940, Belgium, +32 925 30800, [email protected], www.vanwingen.beOffers power solutions with diesel and gas engines from emergency diesel generators to green cogeneration projects with natural gas, biomass and PPO. Provides maximum energy effciency through a combination of mini-CHP and electrical mobility.
EVONIK FIBRES GMBHGewerbepark 4, Schörfling A-4861, Austria, +43 7672 701 2891, [email protected], www.p84.comSupplies P84 and Procon fbres for flter fabrics in fue gas treatment systems and provides hollow-fbre membrane modules especially designed for gas separation such as for biogas upgrading.
EXXONMOBILHermeslaan 2, Machelen 1831, Belgium, +32 272 23211, www.exxonmobil.comOffers a range of lubricants and greases.
FFACHAGENTUR
NACHWACHSENDE
ROHSTOFFE EV - FNRHofplatz 1, Guelzow-Pruezen 18276, Germany, +49 3843 6930 0, [email protected], www.fnr.deOperates as a coordinating agency for bioenergy and renewable bioproducts.
FG WILSON LTD1 Millennium Way, Springvale Business Pk, Belfast, Co Antrim, Northern Ireland BT12 7AL, UK, +44 28 9049 5000, [email protected], www.fgwilson.comDesigns and manufactures diesel and gas generator sets.
FICHTNER GMBH & CO KGSarweystr 3, Stuttgart 70191, Germany, +49 711 8995 0, [email protected], www.fichtner.deProvides services concerning all types of power plants, cogeneration and nonstandard process engineering.
FLENDER-GRAFFENSTADEN1 Rue du Vieux Moulin, Illkirch-Graffenstaden, Alsace 67400, France, +33 3 88 67 60 00, [email protected], www.flender-graff.comOffers high-speed gears for turbomachinery applications.
FLEXITALLIC LTDScandinavia Mill, Hunsworth Ln, Cleckheaton BD19 4LN, UK, +44 1274 851 273, [email protected], www.flexitallic.euManufactures and supplies high-quality, high-value industrial static sealing products, delivering industrial gaskets on a global scale.
FLSMIDTH PFISTER GMBHStaetzlinger Str 70, Augsburg D-86165, Germany, +49 821 7949 280, [email protected], www.flsmidthpfister.comSpecialises in weighing and dosing technologies.
FOZMULA LTDGriffiths House, Hermes Close, Tachbrook Pk, Warwick, Warwickshire CV34 6UF, UK, +44 1926 466 700, [email protected], www.fozmula.comDesigns and manufactures a wide range of liquid level switches, sensors, gauges and controls for diesel engines and generator sets. Also manufactures temperature and pressure sensors and switches.
FRANCO TOSI MECCANICA
SPAPiazza Monumento 12, Legnano 20025, Italy, +39 0331 522 111, [email protected], www.francotosimeccanica.itProvides plants and systems for energy generation, conversion, utilisation and recovery.
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CHP EU COMPANY & ORGANIZATION LISTING
FRANK W MURPHY LTD
Swichgage House, Church Rd, Laverstock, Salisbury SP1 1QZ, UK, +44 1722 410 055, [email protected], www.fwmurphy.co.ukManufactures display, instrument, control and emission compliance systems for industrial diesel or gas engines and gensets.
FRIENDS OF THE EARTH
26-28 Underwood St, London N1 7JQ, UK, +44 20 7490 1555, [email protected], www.foe.co.ukCampaigns on local, national and international environmental issues, including energy.
GGAMATRONIC
15 Chester Rd, Colmworth Business Pk, Eaton Socon, Cambridgeshire PE19 8YT, UK, +44 1480 479 889, [email protected], www.gamatronic.co.ukProduces UPS systems, DC to AC inverters and power supplies for the telecom market.
G+H SCHALLSCHUTZ GMBH
PO Box 21 05 30, Ludwisghafen 67059, Germany, +49 621 502 288, [email protected], www.guh-schallschultz.deDesigns, manufactures and erects noise control solutions for gas turbines.
GAS COMPRESSORS LTD
Titheward House, Three Elm Ln, Golden Green, Tonbridge, Kent TN11 0BN, UK, +44 1622 871 500, [email protected], www.gascompressors.co.ukManufactures gas compressor, blower and booster packages.
GASTURBINESUPPORT
Hansastr 18, Garbsen 30823, Germany, +49 5137 825 9841, [email protected], www.gasturbinesupport.deOffers compressor cleaning systems/chemicals, spare parts, air intake flters, fabric, metal, and rubber expansion joints, bag flters and support cages.
GE
Holsterfeld 16, Salzbergen 48499, Germany, +49 5971 980 1756, [email protected], www.ge-energy.comProvides fuel fexibility, high-exhaust energy-to-power ratio, exhaust temperature, and reliability to make the company’s gas turbines an excellent ft for industrial and refnery cogeneration.
GEA FILTRI GASPARINI
ASSOCIATES
Via Degli Artigiani 14, Brugherio, (MB) 20047, Italy, +39 039 287 6145, [email protected], www.geafiltri.comDevelops and manufactures high-quality air flter elements for many different industrial dedusting applications, using specifc media and components to meet the requirements of today’s plant necessities. Founded in 1986.
GE JENBACHER AG
Achensee-Str 1-3, Jenbach A-6200, Austria, +43 5244 600 0, [email protected], www.gejenbacher.comManufactures gas-driven generator sets and cogeneration systems.
GET ENERGY GERHARD
BRANDEL MA
Forstweg 1, Dietzenbach 63128, Germany, +49 6074 9197407, [email protected], www.get-energy.netProvides English-German energy industry translations.
GICOM BV
Oogstweg 9, Biddinghuizen 8256 SB, The Netherlands, +31 321 332 682, [email protected], www.gicom.nlDesigns, builds and commissions facilities for biological drying of MSW and composting of biowaste and sludge.
GOM GMBH
Mittelweg 7-8, Braunschweig 38106, Germany, +49 531 390 29 0, [email protected], www.gom.comDevelops and distributes optical measuring systems.
GUTTRIDGE LTD
Wardentree Pk, Spalding, Lincs PE11 3UU, UK, +44 1775 765 300, [email protected], www.guttridge.co.uk/enHas 50 years experience as a supplier of reliable, well-engineered bulk material handling machinery.
HHARRINGTON GENERATORS
INTERNATIONAL LTD - HGI
Ravenstor Rd, Wirksworth, Derbyshire DE4 4FY, UK, +44 1629 824 284, [email protected], www.harrington-international.co.ukProvides petrol, diesel and gas portable generators, and silent diesel generators.
HELIEX POWER LTD
Kelvin Bldg, Bramah Ave, Scottish Enterprise Technology Pk, East Kilbride, Scotland G75 0RD, UK, +44 1355 233 127, [email protected], www.heliexpower.comProvides steam screw expanders and applications in the recovery of energy from industrial processes.
HITACHI POWER EUROPE
GMBH
Schiffer Str 80, Duisburg 47059, Germany, +49 203 8038 0, [email protected], www.hitachi-power.comDesigns and constructs fossil-fred power plants.
HL INSULATION LTD
Vehmaistenkatu 7, Tampere 33100, Finland, +358 3 3775300, [email protected], www.hlinsulation.com
IIAC ACOUSTICS
Harry Weston Rd, Coventry CV3 2TX, UK, +44 2476 430 160, [email protected], www.iac-acoustics.comSupplies noise and acoustic control products, structures, test facilities, and aeroengine testing solutions worldwide.
ILTEKNO
Dolapdere Cad 127, Pangalti, Istanbul 34375, Turkey, +90 212 296 77 40, [email protected], www.iltekno.comOffers EPC contracting of natural/non-natural gas or HFO-fred cogeneration, trigeneration and IPPs. All after sales work, commissioning, installation and O&M in Turkey, Iraq and Egypt. 1355 MW reference in 112 completed projects.
INTERENERGY SRL
Via Boito 102, Borgo S. Martino, Rome, (RM) 00050, Italy, +39 06 9920 6927, [email protected], www.interenergy.itSpecialises in sustainable energy, renewables, distributed generation, CHP and trigeneration, rural electrifcation, effciency, rational use of energy, energy storage, smart grids, hydrogen, electrical vehicles, investment evaluation, auditing and consulting.
JJAMES TROOP & CO LTD
4 Davy Rd, Astmoor Industrial Estate, Runcorn, Cheshire WA7 1PZ, UK, +44 1928 566 170, [email protected], www.jamestroop.co.ukProvides diesel, gas and dual fuel engines.
JET-VAC SYSTEMS LTD
Rutherglen Centre, Seaway Parade, Port Talbot, West Glamorgan SA12 7BR, UK, +44 1639 814 455, [email protected], www.jetvacsystems.comProvides safe, effcient, cost-effective single source and turnkey solutions for industrial cleaning and waste management including catalyst handling, vacuumation, high-pressure water jetting, mechanical bolting, and water treatment services.
JOZEF STEFAN INSTITUTE
Jamova 39, Ljubljana 1000, Slovenia, +386 1 5885 210, [email protected], www.rcp.ijs.siResearches and consults on energy, energy effciency measures, energy savings, CHP, renewable energy sources, energy audits, long-term planning in energy and the reduction of GHG.
JUSTSEN ENERGITEKNIK A/S
Grimhojvej 11, Brabrand DK-8220, Denmark, +45 86 26 05 00, [email protected], www.justsen.dkOffers boiler systems for wood waste, biomass and sorted waste.
KKANTOR MANAGEMENT
CONSULTANTS SA
1 Vissarionos and Omirou St, Athens 10672, Greece, +30 210 7297500, [email protected], www.kantor-group.euOffers energy consulting with experience in Greece, CIS, CEE and more.
KARA ENERGY SYSTEMS BV
PO Box 570, Plesmanweg 27 7602pd, Almelo 7600 AN, The Netherlands, +31 546 876580, [email protected], www.kara-greenenergy.comManufactures biomass combustion systems from 200 kW to 10 MW.
KAWASAKI GAS TURBINE
EUROPE GMBH
Nehringstr 15, Bad Homburg 61352, Germany, +49 617 273 630, [email protected], www.kawasaki-gasturbine.deProduces and designs industrial gas turbine packages, generator sets, and CHP systems. Delivers complete heat and power plants based on gas turbines. Offers customised solutions and product support and maintenance.
KRAL AG
Bildgasse 40, Industrie Nord, Lustenau 6890, Austria, +43 5577 866 440, [email protected], www.kral.atManufactures high-quality displacement pumps and fowmeters for liquids.
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EU COMPANY & ORGANIZATION LISTING CHP
KREAB GAVIN ANDERSON
Scandinavian House, 2-6 Cannon St, London EC4M 6XJ, UK, +44 20 7074 1800, [email protected], www.kreabgavinanderson.comOperates as an independent global communications consultancy, specialising in fnancial and corporate communications and public affairs. Experts in renewable energy.
LLAC CONVEYORS
Unit 3, Charles Pk, Cinderhill Rd, Bulwell, Nottinghamshire NG6 8RE, UK, +44 1159 753 300, [email protected], www.lacconveyors.co.ukManufactures conveyor and conveyor systems. Based in Nottingham and supplies across the UK.
LEROY SOMER
Sillac, Blvd Marcellin Leroy, Angouleme 16015, France, +33 5 45 64 45 64, [email protected], www.leroy-somer.comManufactures AC generators from 1 kW to 25 MW, 2 to 18 pole.
LITHUANIAN ENERGY
INSTITUTE - LEI
Breslaujos g 3, Kaunas LT-44403, Lithuania, +370 37 401 832, [email protected], www.lei.ltProvides information for decision makers on energy policy and economics.
MMAGALDI POWER SPA
Via Irno, 219, Salerno 84135, Italy, +39 089 489 111, [email protected], www.magaldi.comSpecialises in dependable and environmentally friendly bulk materials handling. Pioneers solutions for demanding problems in power plants and more. Founded in 1929.
MAN DIESEL & TURBO SE
Stadtbachstr 1, Augsburg D-86153, Germany, +49 821 322 0, [email protected], www.mandieselturbo.comProvides large-bore diesel engines and turbomachinery for marine and stationary applications. Based in Augsburg, Germany.
MANENS-TIFS SPA
Via Campofiore 21, Verona 37129, Italy, +39 045 803 6100, [email protected], www.manens-tifs.comProvides consulting engineers.
MAPRO INTERNATIONAL SPA
Via Vesuvio 2, Nova Milanese, (MB) 20834, Italy, +39 0362 366 356, [email protected], www.maproint.comProduces blowers and compressors for biogas and air.
MARELLI MOTORI SPA
Via Sabbionara, 1, Arzignano, (VI) 36071, Italy, +39 0444 479 711, [email protected], www.marellimotori.comDesigns and manufactures synchronous and asynchcronous generators and motors in low, medium and high-voltage, from 10 to 9000 kVA for generators and from 0.12 to 6400 kW for motors.
MARIOFF CORP OY
PO Box 86, Virnatie 3, Vantaa FI-01301, Finland, +358 10 6880 000, [email protected], www.marioff.comProvides HI-FOG water mist systems with a mission to protect people, property and business from fre. HI-FOG is safe for equipment, people, and the environment.
MATAN INTERNATIONAL
GROUP LTD
6th Fl, Horton House, Exchange Flags, Liverpool L2 3PF, UK, +44 151 244 5439, [email protected], www.matan.co.ukProvides services from multidisciplined consulting engineers (civil, mechanical, electrical, and marine engineering), environmental consultants, management consultants and international procurement consultants.
MATRIX POWER LTD
Suite 33-34, The Cadcam Centre, High Force Rd, Middlesbrough, North Yorkshire TS2 1RH, UK, +44 1642 210 210, [email protected], www.matrixpower.co.ukOffers designs, installation, tests and commissioning including cable installations and cable jointing of electrical power distribution systems throughout the UK and overseas. All voltages from 415–33,000 volts.
MC RESOURCES
34 Port Royal Ave, Lune Industrial Estate, Lancaster LA1 5QP, UK, +44 1524 599 600, [email protected], www.mcresources.co.ukManufactures thermal acoustic materials and systems, including GTB mineral fbre.
MECC ALTE SPA
Via Roma 20, Creazzo, (VI) 36051, Italy, +39 0444 396 111, [email protected], www.meccalte.comManufactures synchronous alternators. Manufactures a wide range of low-voltage alternators, and alternators for specialised applications.
MECC ALTE UK LTD
6 Lands End Way, Oakham, Rutland LE15 6RF, UK, +44 1572 771 160, [email protected], www.meccalte.comManufactures AC generators ranging from 1 to 3000 kVA.
MECOS AG
Industriestr 26, Winterthur CH-8404, Switzerland, +41 52 235 14 14, [email protected], www.mecos.comDevelops and produces magnetic bearing systems for turbomachinery, especially in oil and gas applications. Solves individual technical problems by covering every phase, from concept to serial production.
MEGGITT SENSING SYSTEMS
Rt de Moncor 4, PO Box 1616, Fribourg 1701, Switzerland, +41 26 407 11 11, [email protected], www.vibro-meter.comSupplies advanced machinery protection and condition monitoring systems for power generation, including vibration and combustion monitoring of steam and gas turbines and generators.
METKA SA
8 Artemidos Str Maroussi, Athens GR-15125, Greece, +30 21 027 09200, [email protected], www.metka.grProvides engineering, procurement and construction contracting focused on power plants.
METROLOGIE ET GESTION
D’ENVIRONNEMENT - MGE
Rue Papeteries, 56b, Chaumont-Gistoux B-1325, Belgium, +32 10 24 80 75, [email protected], www.mgesolutions.comProvides solutions, engineering, environmental and energy consulting
METRON NAVITAS SA
91 Marathonos Ave, Pallini, Athens 15351, Greece, +30 210 677 6060, [email protected], www.metron-navitas.comOffers renewable energy source project procurement, design, fnancing and development services. Incorporates wind, photovoltaics, small hydroelectric, biomass and combined heat and power generation in conjunction with glass “Venlo” type greenhouses.
MIDIT SRL
Via M Libertà 119, Roncadelle, (BS) 25030, Italy, +39 030 258 6376, [email protected], www.midit.itOffers biomass and sludge rotating driers and mixers.
MINCO UK LTD
The White House, Mill Rd, Goring-on-Thames, Berks RG8 9DD, UK, +44 20 8133 3916, [email protected], www.minco.orgProvides powerful and effective OEM-approved cleaning chemicals, for both off-line and on-line washing of gas turbine compressors.
MITSUBISHI TURBOCHARGER
AND ENGINE EUROPE BV
Damsluisweg 2, PO Box 30101, Almere 1332 EC, The Netherlands, +31 36 53 88 311, [email protected], www.mtee.euSells lean burn gas engines, diesel engines and turbochargers.
MK CONSULTING
Gazi M 1328 St, 2/8, Mersin 33130, Turkey, +90 532 584 5084, [email protected], www.mkmusavirlik.comOperates as an energy automation consultancy.
MTS SENSOR TECHNOLOGIE
GMBH & CO KG
Auf dem Schüffel 9, Luedenscheid D-58513, Germany, +49 2351 95870, [email protected], www.mtssensor.comSupplies magnetostrictive, noncontact position sensors and liquid level gauges.
MTU FRIEDRICHSHAFEN
GMBH
Maybachstr 1, Friedrichshafen 88040, Germany, +49 7541 90 0, [email protected], www.mtu-online.comManufactures large diesel engines and complete propulsion systems.
MTU MAINTENANCE BERLIN-
BRANDENBURG GMBH
Dr-Ernst-Zimmermann-Str 2, Ludwigsfelde 14974, Germany, +49 3378 824 213, [email protected], www.mtu.deProvides maintenance, repairs and overhauls of GE aeroderivative gas turbines.
MWM GMBH
Carl-Benz Str 1, Mannheim D-68167, Germany, +49 621 384 0, [email protected], www.mwm.netSupplies highly effcient and environmentally friendly systems for energy production, with 1270 employees across 11 subisidiary companies.
NNALCO
Winnington Ave, Winnington, Northwich, Cheshire CW8 4DX, UK, +44 1606 74488, [email protected], www.nalco.comProvides water treatment, chemicals and services.
NEDSTACK
Westervoortsedijk 73, PO Box 5167, Arnhem 6802 ED, The Netherlands, +31 26 3197 600, [email protected], www.nedstack.comOffers PEM fuel cell stacks 1 kW to multi-MW.
NEOS RESOURCES PLC
5th Fl, 22 Arlington St, London SW1A 1RD, UK, +44 20 7499 5626, [email protected], www.neosplc.comProcures and processes nonedible oil seeds and markets and distributes the resulting oil and seed cake in India and Southeast Asia.
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CHP EU COMPANY & ORGANIZATION LISTING
NEW COMPONIT SRLViale Rimembranze, 5, Cirimido, (CO) 22070, Italy, +39 031 895 580, [email protected], www.newcomponit.comProvides expansion joints and insulating pillows.
NIFES CONSULTING GROUPNIFES House, Sinderland Rd, Broadheath, Altrincham, Cheshire WA14 5HQ, UK, +44 161 928 5791, [email protected], www.nifes.co.ukOffers consulting engineers providing feasibility, design and project managment services for the installation of CHP and power generation.
NIRAS A/SSortemosevej 19, Allerod DK-3450, Denmark, +45 8732 3232, [email protected], www.niras.comConsults within renewable energy (wind, solar, tidal, and biomass) on energy distribution, district heating and energy optimisation.
OONDEO INDUSTRIAL SOLUTIONSSuez Environment House, Bo’ness Rd, Grangemouth FK3 9XD, UK, +44 870 241 6643, [email protected], www.ondeo-is.comProvides sustainable and effective water management to industry with guaranteed results.
OPRA TURBINESOpaalstraat 60, Hengelo 7554 TS, The Netherlands, +31 74 245 2121, [email protected], www.opraturbines.comOffers gas turbines providing 2–10 MW power solutions with low-emissions and simple-cycles. Compact and reliable with multifuel capabilities. Provides clean, sustainable power for remote, standby, mobile, cogeneration and district heating/cooling.
OPSIS ABBox 244, Furulund SE-244 02, Sweden, +46 46 72 25 00, [email protected], www.opsis.seOffers systems for continuous emissions monitoring and process control.
PPAQUES BVT de Boerstraat 24, Balk 8561 EL, The Netherlands, +31 514 608 500, [email protected], www.paques.nlDevelops and produces purifcation systems for water and gas.
PARKER WARD LTD247 Copthorne Rd, Shrewsbury, Shropshire SY3 8LP, UK, +44 1743 344 197, [email protected], www.parker-ward.comSpecialises in marketing communications for energy and engineering sectors, with particular experience in low carbon, renewables, CHP, district heating and biofuels. Works both in the UK and worldwide.
PARSONS BRINCKERHOFFAmber Ct, William Armstrong Dr, Newcastle upon Tyne NE4 7YQ, UK, +44 191 226 1899, [email protected], www.pbworld.comOffers global project management and engineering services.
PCH ENGINEERING A/SVed Klaedebo 4, Hoersholm DK-2970, Denmark, +45 45 76 87 76, [email protected], www.pch-engineering.dkSpecialises in vibration, offering permanent sound and vibration monitoring. Main objective is to protect rotating machines.
PERKINS ENGINES CO LTDFrank Perkins Way, Peterborough, Cambs PE1 5NA, UK, +44 1733 583 000, [email protected], www.perkins.comSupplies off-highway diesel and gas engines in the 4–2000 kW market. The power solutions are trusted by more than 1000 leading manufacturers worldwide.
PRÉ CONSULTANTS BVPrinterweg 18, Amersfoort 3821 AD, The Netherlands, +31 33 450 4010, [email protected], www.pre-sustainability.comOffers sustainability experts providing life cycle assessment (LCA) worldwide, LCA software SimaPro, CO2 balances, and EPDs environmental assessments.
PROGETTO ENERGIA SRLVia Sistina 121, Roma 00187, Italy, +39 06 4781 8451, [email protected], www.progettoenergia.comEngineers and consults on CHP, CHCP, energy-from-waste and biomass.
PXL SEALS27, Rue de l’industrie, Bellegarde-sur-Valserine, Ain 01200, France, +33 4 50 48 02 09, [email protected], www.pxlseals.comInstalls and manufactures sealing systems for energy and large bearings. Specialises in expertise, design and on-site installation of sealing systems for dams and hydroelectric plants.
RRAMBOLLHannemanns Allé 53, Copenhagen S DK-2300, Denmark, +45 51611000, [email protected], www.ramboll.com/energyOperates as an international energy consultant, providing advice on every aspect of energy from strategies and plans to production and transmission facilities.
RED ACOUSTICS LTDCottam Ln Business Centre, Suite 3, Cottam Ln, Preston, Lancashire PR2 1JR, UK, +44 1772 722 182, [email protected], www.redacoustics.co.ukProvides professional and cost-effective consultancy services and solutions in all aspects of acoustics, noise control and vibration.
REGELTECHNIK KORNWESTHEIM GMBHMax-Planck-Str 3, Kornwesthelm D 70806, Germany, +49 7154 1314 0, [email protected], www.rtk.deProduces and distributes control devices for thermal and refrigeration engineering.
RELY (UK) PRECISION CASTINGS31 Glenacre Cescent, Uddingston, Glasgow G71 6EH, UK, +44 1698 303 010, [email protected], www.rely.co.zaManufactures precision steel castings for valve/oil related, and power generation markets. All grades of steel are produced within the ASTM specifcation range.
REMAZEL ENGINEERING SPALoc Pertegalli 33, Endine Gaiano, (BG) 24060, Italy, +39 035 827333, www.zambettielumina.comDesigns and fabricates diverters, exhaust systems and dampers (multilouver, biplane or tandem, guillotines, stack dampers, expansion joints, and silencers). Applications for power plants, CCPP, refneries, oil and gas and industrial.
RENEWABLE POWER SYSTEMS LTD - RPSUnit 11, Bedford Business Centre, Mile Rd, Bedford MK42 9TW, UK, +44 1234 271 700, [email protected], www.renewablepower.co.ukDevelops, manages and operates landfll gas utilisation and anaerobic digestion projects on a build/own/operate basis.
RH ENERGY LTD28 Tilmore Rd, Petersfield, Hampshire GU32 2HH, UK, +44 1730 261 486, [email protected] mechanical and energy engineering consulting services on energy effciency, CHP, power generation, and renewables. Specialises in thermo-economic analysis of power generation cycles, software development, feasibility studies and concept design.
RIZZI ENGINEERINGVia Nespolo 6, Adro Brescia 25030, Italy, +39 030 73 56 336, [email protected], www.rizzienergy.comProvides heat recovery and waste heat boilers, air heaters, economisers and soot blowers.
ROLLS-ROYCE65 Buckingham Gate, London SW1E 6AT, UK, +44 20 7227 9020, [email protected], www.rolls-royce.comProvides integrated power systems for use on land, at sea, and in the air.
ROLLS-ROYCE MARINE ASHordvikneset 125, PO Box 924, Sentrum, Bergen N-5808, Norway, +47 55 53 60 00, [email protected], www.rolls-royce.comProvides Bergen gas engines, 2220–8700 kW in 12–20 cylinders.
ROMANIAN ENERGY REGULATORY AUTHORITY - ANRE3 Constantin Nacu Str, Bucharest, Sect 2 020995, Romania, +40 21 311 22 44, [email protected], www.anre.roImplements regulations for effcient functioning of electricity and other sectors.
ROTORK PLCRotork House, Brassmill Ln, Bath, Somerset BA1 3JQ, UK, +44 1225 733 200, [email protected], www.rotork.comManufactures electric, pneumatic and hydraulic valve actuators and control systems, valve gearboxes, valve accessories and precision control instruments supported by a worldwide service network.
RR PROJECTSParsons House, 56 Axis Business Pk, Tullamore MN3-45-W93, Ireland, +353 57 936 1600, [email protected], www.rrprojects.netProvides a best practice, single-source solution to meet electrical installation, mechanical installation and maintenance project requirements for the power, oil and gas, food and life science industries.
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EU COMPANY & ORGANIZATION LISTING CHPS
SCHLAICH BERGERMANN UND PARTNER, SBP GMBHMörikestr 9, Stuttgart 70178, Germany, +49 711 648 71 0, [email protected], www.sbp.deProvides consulting services for engineers developing concentrators for solar thermal power generation.
SCOTTISHPOWERCathcart Business Pk, Spean St, Glasgow G44 4BE, UK, +44 141 568 4414, [email protected], www.scottishpower.comOwns and operates generation assets including cogeneration.
SEAWATER GREENHOUSE LTD2A Greenwood Rd, London E8 1AB, UK, +44 20 7249 3627, [email protected], www.seawatergreenhouse.comProduces a climate control and desalination system.
SENERc/ Severo Ochoa 4, Parque Tecnologico de Madrid, Tres Cantos, Madrid 28760, Spain, +34 91 807 7318, [email protected], www.sener.esOffers clients cutting-edge technological solutions in the specifc activities of engineering, energy and environment, and aerospace through a private engineering and technology group.
SENSOPLAN GMBHGewerbestr 6, Hohentengen aH, Baden-Württemberg 79801, Germany, +49 7742 9298 0, [email protected], www.sensoplan.com
SGS GROUPRaboisen 28, Hamburg 20095, Germany, +49 405 701 97 421, [email protected], www.sgs.com/industrialOffers inspection, verifcation, testing and certifcation with quality and integrity.
SIEMENS INDUSTRIAL TURBOMACHINERY LTDRuston House, PO Box 1, Waterside South, Lincoln, Lincolnshire LN5 7FD, UK, +44 1522 584 000, [email protected], www.energy.siemens.com/hq/en/ industries-utilitiesDesigns and manufactures industrial gas turbines for the oil and gas industry including compression and pumping applications, onshore, offshore (platforms or FPSO) and for power generation (CHP, CC).
SIEMENS TRANSMISSION AND DISTRIBUTION LTDSir William Siemens House, Princess Rd, Manchester M20 2UR, UK, +44 780 882 4992, [email protected], www.siemens.co.uk/energyOffers products and solutions for the generation, transmission and distribution of electrical energy.
SIMTECH SIMULATION TECHNOLOGYRiesstr 120, Graz 8010, Austria, +43 316 386278 20, [email protected], www.simtechnology.comProvides the comprehensive and versitile power process simulation software, IPSEpro.
SIPOS AKTORIK GMBHIm Erlet 2, Altdorf D-90518, Germany, +49 9187 9227 0, [email protected], www.sipos.deManufactures electric actuators for industrial valve applications including rotary, linear, part-turn and nuclear products. Variable speed actuation specialists. With roots as part of Siemens, the company has a 100 year history.
SOHRE TURBOMACHINERY INC128 Main St, Monson, MA 01057, USA, +1 413 267 0590, FAX: +1 413 267 0592, [email protected], www.sohreturbo.comOffers shaft grounding brushes, self cleaning, run dry or in oil. Prevents damage from stray electrical shaft currents. Used for decades to protect turbomachinery and other shafting. Silver/gold composite bristles available.
SPILLING ENERGIE SYSTEME GMBHWerfstr 5, Hamburg 20457, Germany, +49 40 789175 0, [email protected], www.spilling.deDevelops and produces steam power plants with steam engines and turbines in a range from 100–5000 kW. Also offers gas expansion plants (up to 3 MW).
SRC INTERNATIONAL A/SHovedgaden 8, Birkerod 3460, Denmark, +45 70 20 45 90, [email protected], www.srci.dkConsults on restructuring power and gas, DSM and energy effciency, and offers feasibility studies.
STANDARDKESSEL GROUPBaldusstr 13, Duisburg D-47138, Germany, +49 203 452 111, [email protected], www.standardkessel.comOffers power plants and components for industrial and municipal energy supply.
STEJASA AGREGADOS INDUSTRIALES SAAlbasanz 34, Madrid 28037, Spain, +34 913 270 013, [email protected], www.stejasa.esSupplies gas turbine dampers and complete bypass systems able to operate in the worst working conditions. Options include multilouvre, tandem, guillotine, diverter, and stack dampers for CCPP, DeSOx and DeNOx.
STF SPAVia Robecco, 20, Magenta, (MI) 20013, Italy, +39 02 972 091, www.stf.itDesigns, supplies, installs and commissions HRSGs, industrial boilers, subcritical and USC boilers, biomass-fred boilers, low NOx burners, condensers, feedwater heaters, S&T heat exchangers, regenerative airheaters, GGHs, DeSOx and DeNOx.
SÜD-CHEMIE AGWaldheimer Str 15, Bruckmühl 83052, Germany, +49 8061 4903 506, [email protected], www.clariant.comDevelops and produces EnviCat catalysts for purifcation of industrial and engine emissions. The product portfolio comprises oxidation catalysts, selective-catalytic-reduction (SCR) catalysts and catalysed flters for genets running on various fuels.
SULZER TURBO SERVICESZürcherstr 12, Winterthur CH-8401, Switzerland, +41 52 262 3444, [email protected], www.sulzer.comProvides land-based rotating equipment to operators and owners worldwide. Offers a mix of service-oriented businesses including shops, feld services, parts engineering, operations and maintenance, conducting both transactional and contractual business.
SULZER TURBO SERVICES VENLO BVSpikweien 36, Lomm NL-5943 AD, The Netherlands, +31 77 473 8666, [email protected], www.sulzer.com
SUSTAINABLE ENERGY AUTHORITY OF IRELANDUnit A, W Cork Technology Pk, Clonakilty, Co Cork, Ireland, +353 23 8842193, [email protected], www.seai.ieOperates as a statutory national authority for all energy issues.
SWAN ANALYTICAL INSTRUMENTS AGStudbachstr 13, Postfach 398, Hinwil 8340, Switzerland, +41 44 943 63 00, [email protected], www.swan.chDevelops, produces and sells technologically advanced instruments for the control of water and steam quality for the water and power industries.
TT4 SUSTAINABILITY LTD1A Manners Ct, Manners Ave, Manners Industrial Estate, Ilkeston, Derbyshire DE7 8EF, UK, +44 115 944 8910, [email protected], www.t4sltd.co.ukProvides renewable energy installations and energy and sustainability consultancy. Installs PV, solar hot water, biomass and heat pump heating, and other energy saving technologies.
TECHNOPA GMBHHietzinger Hauptstr 50, Vienna 1130, Austria, +43 18 770553, [email protected], www.technopa.euOffers S2E steam microturbines, 50–650 kWe, to make electricity using waste steam fow. Works well in wet and fuctuating steam conditions. Inexpensive to maintain.
TEDOM SROVycapy 195, Trebic 674-01, Czech Republic, +420 568 837 111, [email protected], www.tedom.comOffers CHP units for cogeneration based on gas piston engines.
TELBIT AGBrunneliweid 16, Hinwil 8340, Switzerland, +41 44 937 2550, [email protected], www.telbit.chProvides high-voltage interface (HVI) for ground potential rise (GPR) isolation to protect broadband DSL lines for critical (must not fail) communications systems located within zone of infuence (ZOI).
TERMODECK INTERNATIONAL LTDPO Box 227, Saltsjobaden 133 02, Sweden, +46 8 748 95 11, [email protected], www.termodeck.comOffers lower investments in new power plants since the peak power load from air-conditioning of buildings is reduced by 70–90%. This has been tested in buildings in Middle East.
TESTO LTDNewman Ln, Alton, Hampshire GU34 2QJ, UK, +44 1420 544 433, [email protected], www.testolimited.comProvides instrumentation for emissions monitoring, pressure, temperature, velocity and humidity.
THAMES RENEWABLES46 Platts Eyot, Lower Sunbury Rd, Hampton, Surrey TW12 2HF, UK, +44 208 123 1199, [email protected], www.thamesrenewables.comOffers best practice energy and engineering consulting for a sustainable, low-carbon future. Fully accredited and experienced at delivering transition solutions.
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CHP EU COMPANY & ORGANIZATION LISTING
THAMESWEY ENERGY26a Commercial Way, Woking GU21 6EN, UK, +44 845 601 5515, [email protected], www.thamesweygroup.co.ukProvides renewable energy and energy effciency consulting.
THERMAX EUROPE LTD2 Studio Ct, Queensway Bletchley, MIlton Keynes MK2 2DG, UK, +44 1908 378 914, [email protected], www.thermax-europe.comManufactures absorption chillers.
THORNE INTERNATIONAL BOILER SERVICES LTDBroad Lns, Bilston, Wolverhampton WV14 0RQ, UK, +44 1902 404 223, [email protected], www.tibsltd.comOffers steam boiler plants for all fuels, waste heat, biomass combustion, grates and more. Provides site installation, boiler repairs, superheaters, economisers, controls and instrumentation, steam plant engineering projects and more.
TURBOMACH SAVia Campagna 15, Riazzino, Ticino CH-6595, Switzerland, +41 91 851 1511, [email protected], www.turbomach.comProvides power generation applications for gas turbines from 1–22 MW and plants to 50 MW.
TURBOTECT LTDPO Box 1411, Baden CH-5401, Switzerland, +41 56 200 50 20, [email protected], www.turbotect.comProvides GT fuel additives, lubricity additives, demulsifers and compressor cleaners.
U
UK COMBINED HEAT AND POWER ASSOCIATION - CHPA4th Fl Grosvenor Gardens House, 35/37 Grosvenor Gardens, London SW1W 0BS, UK, +44 20 7828 4077, [email protected], www.chpa.co.ukOperates as an association supporting the use of combined heat, power and district heating.
UNEX SCAMBIO TERMICO SRLVia del Lavoro 26/A, Bussolengo, (VR) 37012, Italy, +39 045 6717 709, [email protected], www.unexsrl.comOffers heat exchangers.
UT99 AG OIL MIST ELIMINATORSSchaubenstr 5, Andelfingen, Zürich CH-8450, Switzerland, +41 52 397 1199, [email protected], www.ut99.ch/enOffers high-effciency oil mist eliminators for crankcase ventilation of combustion engines (for CHP, power plants, marine and offshore applications) and for lube oil tank ventilation of turbines.
THE UTILE ENGINEERING CO LTDNew St, Irthlingborough, Northamptonshire NN9 5UG, UK, +44 1933 650 216, [email protected], www.utileengineering.comOffers CHP biogas compressors and boosters and AD gas mixing systems.
VVALVULAS JOLAJuan Ibargutxi 7, Basauri 48970, Spain, +34 94 440 1391, [email protected], www.valvulasjola.comOffers high-temperature butterfy valves.
VERBUND AGAm Hof 6a, Wien 1010, Austria, +43 50313 0, [email protected], www.verbund.comOperates as a power utility.
VISA ENERGY GB LTD400 Pavilion Dr, Northampton Business Pk, Brackmills Industrial Estate, Northampton NN4 7PA, UK, +44 844 800 7301, [email protected], www.visaenergy.comManufactures and exports industrial diesel and gas generators from 5–6000 kVA. Also provides diesel welding from 150–800A, distribution and power transformers and electric power cables.
VOITH TURBO BHS GETRIEBE GMBHHans-Boeckler-Str 7, Sonthofen D-87527, Germany, +49 8321 802 502, [email protected], www.bhs-getriebe.deSupplies turbo gears, rotor turning gears and couplings for PG. Produces gear units for gas, steam, and water turbines, and pumping applications up to 170 MW or 100,000 rpm.
VOITH TURBO GMBH & CO KGVoithstr 1, Crailsheim 74564, Germany, +49 7951 32 0, [email protected], www.voith.comSupplies variable-speed drives, fuid couplings, geared variable-speed couplings, variable-speed planetary gear Vorecon and WinDrive, torque converters, gas turbine starting systems, turbo gear units, torque-limiting couplings, Hirth couplings and actuators/controllers for turbomachinery.
W
WÄRTSILÄ CORPJohn Stenbergin Ranta 2, Helsinki 00531, Finland, +358 10 709 0000, [email protected], www.wartsila.comProvides power plant operation and lifetime care services in decentralised power generation.
WASTE2ENERGY (EUROPE) LTD1 Bldgs, PO Box 1642, Salisbury, Wiltshire SP2 0SE, UK, +44 1264 363 807, [email protected], www.zeintlplc.comDesigns, manufactures, supplies, installs and services zero emissions waste-to-energy/CHP, high-effciency, ZE organic rankine cycle turnkey solutions to generate clean, self-generated electricity for grid independence and cost reduction.
WELLAND & TUXHORNGütersloher Str 257, Bielefeld D-33649, Germany, +49 521 9418 0, [email protected], www.welland-tuxhorn.deManufactures special control valves and hydraulic actuators.
WEST POMERENIAN UNIVERSITY OF TECHNOLOGYAl Piastow 41, Szczecin 71-065, Poland, +48 91 449 4431, [email protected], www.zut.edu.plResearches low energy and environmentally friendly ship power plants.
WINDHAGER ZENTRALHEIZUNG GMBHAnton-Windhager-Str 20, Seekirchen am Wallersee 5201, Austria, +43 62 12 23410, [email protected], www.windhager.comProvides central heating boilers including oil, gas, pellets and solid fuel.
WOOD GROUP GTS15 Justice Mill Ln, Aberdeen AB11 6EQ, UK, +44 1224 367 200, [email protected], www.woodgroupgts.comProvides operations, maintenance, repair and overhaul services for gas and steam turbines, generators, and other high-speed rotating equipment, including pumps and compressors.
WOODWARD GOVERNOR CO GMBHHandwerkstr 29, Stuttgart 70565, Germany, +49 711 78954 0, [email protected], www.woodward.com/smart-powerOffers genset controls and protection relays for engines and more.
WRC PLCFrankland Rd, Blagrove, Swindon, Wiltshire SN5 8YF, UK, +44 1793 865 000, [email protected], www.wrcplc.co.ukProvides consulting in the water, waste and environment sectors.
XXERGI LTD823 Salisbury House, 29 Finsbury Circus, London EC2M 5QQ, UK, +44 1483 740 228, [email protected], www.xergi.comProvides biogas plants with CHP and operation and maintenance services.
Y
YANMAR EUROPE BVBrugplein 11, Almere 1332 BS, The Netherlands, +31 36 549 3200, [email protected], www.yanmar.euProvides technically advanced, lightweight, compact and frugal diesel engines.
YOKOGAWA EUROPE BVEuroweg 2, Amersfoort 3825 HD, The Netherlands, +31 88 464 1000, [email protected], www.yokogawa.com/euOperates as an industrial automation supplier and has installed 18,000 DCS worldwide with over 800 in the power industry.
YOUNG & FRANKLIN INC942 Old Liverpool Rd, Liverpool, NY 13088, USA, +1 315 457 3110, FAX: +1 315 457 9204, [email protected], www.yf.comManufactures valves, actuators (electric, hydraulic and electrohydrastatic) and more.
ZZOK INTERNATIONAL GROUP LTDElsted Marsh, Midhurst, West Sussex GU29 0JT, UK, +44 173 081 1920, [email protected], www.zok.comProvides gas turbine compressor cleaners. Manufactures water-based cleaning detergents for every type of gas compressor. Products have a friendly green approach to the environment.
2013EuroCogenCHPBG_40 40 9/6/13 4:15 PM
3 – 5 JUNE 2014 I KOELNMESSE I COLOGNE I GERMANY
The POWER-GEN Europe and Renewable Energy World Europe
conference and exhibition returns to Cologne in June 2014
The combined events feature a comprehensive exhibition foor
made up of suppliers, sub-suppliers and service providers across
the entire power generation value chain. The accompanying
multi-track conferences set the agenda for strategic thinking and
technical innovation in the sector, making them unmissable events
for the dedicated power industry professional.
With the sector continuing to undergo complex and far reaching
change, the 2014 events stage under the theme of ‘Navigating the
Power Transition.’
Delivering economic, clean and reliable energy remains the
defning challenge for the power industry. The European power
sector, led by Germany’s transition to a low carbon future, faces
increasing pressure to deliver on this. Finding workable solutions
and implementing technological innovations are topics dominating
debate among energy experts.
Power professionals attending POWER-GEN Europe and Renewable
Energy World Europe have the task of mapping out the route
through the power transition maze. High level speakers and global
technology leaders will point the way to a cleaner, more secaure
and affordable power future.
Make it your business to be in Cologne and be part of navigating
the power transition in 2014.
For further information on participating at POWER-GEN
Europe or Renewable Energy World Europe please visit
the relevant events sites: www.powergeneurope.com or
www.renewableenergyworld-europe.com
Owned and Produced by: Presented by: Supported by:
SAVE THE DATE FOR EUROPE’S
LARGEST POWER EVENT
SALES AND SPONSORSHIP
POWER-GEN EUROPE
Gilbert Weir Jnr.T: +44 (0) 1992 656 617E: [email protected]
RENEWABLE ENERGY WORLD EUROPE
Tom MarlerT: +44 (0) 1992 656 608E: [email protected]
WWW.POWERGENEUROPE.COM
WWW.RENEWABLEENERGYWORLD-EUROPE.COM
2013EuroCogenCHPBG_C3 3 9/6/13 4:07 PM
Online and On the Go Cogeneration On-site Power Production is the media you need to stay updated with the cogeneration and
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STAY UPDATEDwww.cospp.com
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2013EuroCogenCHPBG_C4 4 9/6/13 4:07 PM