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wi th suppo r t f r om
EUROPEAN
SMALL HYDROPOWER
ASSOCIATION
Preserve environment
Ensure competitiveness
Improve reliability
Increase efciency
SMALL HYDROPOWER: INNOVATION IS OUR BUSINESS
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2Cavitation on a blade
Pelton runner
Francis runner
Hydro-mechanical engineering: site-specic small hydropower
plant
The main objective of hydro-mechanical engineers is to develop
turbines that use water resource optimally, by designing turbines
that are specic to the sites.
Therefore the R&D on SHP has focused on very-low-head and
low-head turbines, as these sites make up the important remaining
potential in developed and emerging countries. Notably, pico and
micro hydro turbines are developed to meet the demand for rural
electrication and small isolated network.
Optimal use of the water resources implies an improvement in the
hydraulic design that aims not only at higher efciency, but also
lower costs, a high reliability and an optimal environmental
integration (sh-friendly turbines). Such objectives are achieved
through CFD (Computational Fluid Dynamics) calculation,
systemisation and laboratory development, and specic small hydro
products are to be designed, rather than simply scaling down larger
turbines.
Moreover the development of solutions for the equipment of
existing infrastruc-tures (such as irrigation channels, drinking
water and sewage networks), by using for example new materials to
reduce cost, is another challenge the hydro-mechanical engineers
have to face.
8-blade turbine for low-head
site
CFD (Computational Fluid Dynamics)
Axial turbine set on a test bench
SMALL-HYDROPOWER ENGINEERINGA WIDE AREA OF INNOVATIONSFOR GREEN
POWER GENERATIONNowadays engineers working in the small-hydropower
(SHP) eld keep on developing techniques specic to small
hydro-power, in order to face up to the following challenges:
increase environmental integration decrease cost maximize
electricity production
8-blade turbine for low-head site
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Electrical engineering:for an easy and low-cost integration to
the grid
A vailable solutions for SHP electrical engineering range from
generators, grid connection over electric drives to the control and
management of the whole power plant. New generator designs such as
high pole synchronous ge-nerators with permanent magnet excitation
have been introduced to the SHP market. Designed for direct grid
connection or in combination with a frequency converter for
variable speed operation, such generators allow to avoid speed
increasers and make very compact submersible turbine designs
possible.
Moreover environment-friendly transformers such as oil-free cast
resin ones can also be found on the market. Current digital control
systems offer site specic optimization methods in order to adapt
the overall control to any hydrological or other condition. This
can include identication of the optimum runner and guide vane set
points, the optimized water level control, the improved operation
of the trash rack cleaner and the automatic identication of any
malfunction.
State of the art industrial automation components and excellent
communication features ensure that an operator can identify the
status of the plant at any time and anywhere, using computers,
PDAs, cell phones or just a simple telephone and allow to respond
remotely on problems, where applicable.
New concepts such as scheduled production, prediction of the
energy output and condition monitoring are currently under
development also for SHP in order to improve the grid integration,
to increase reliability and to reduce the operation &
maintenance cost.
Civil engineering:for the best compromise between technology,
economy and environment
A t present, most efforts concerning civil engineering aim at
standardizing design and technology, so as to reach an optimal
integration of an SHP plant with the local environment while
minimizing costs.
Such objectives are reached by setting guidelines based on the
latest design technology, new materials and best practice
examples.
The development in civil engineering is continuously expanding
and it is essential to integrate this development into the basic
design technology through the whole chain of the power plant design
and construction. Indeed the global objective is to reach an
optimal solution and a good environmental integration for every
specic hydropower plant, both for new projects and restoration of
old plants.
Generator
Control & monitoring
Dam, intake and settling basin
Overow dam
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Fish bypass system
Fish bypass system equipped
with brushes
EUROPEAN SMALL HYDROPOWER ASSOCIATIONRenewable Energy House
63-65 Rue dArlon B-1040 Brussels Belgium
T: +32 2 546 1945 F: +32 2 546 1947
E: [email protected] I: www.esha.be
MHyLab - MINI HYDRAULICS LABORATORY
CH-1354 Montcherand Switzerland
T: + 41 24 442 87 87 F: + 41 24 441 36 54
E: [email protected] I: www.mhylab.com
Environmental engineering:for protecting aquatic ecology
The signicant increase in knowledge concerning the biological
mechanism in rivers has consequently initiated the development of
environmental engineering, focussing on minimizing and mitigation
of negative environmental impact. Well-known examples are sh-bypass
systems, environmental ow or river restructuring. The close
cooperation with ecologists has led to excellent compromises
between environmental targets and economic and technical
restrictions.
Such engineering is in continuous evolution. For example,
nowadays, it has been found that contrary to a constant amount of
environmental ow, the variability according to natural discharge
conditions brings about ecolo-
gical benets at lower costs. Moreover, regarding sh-bypass
systems, new technically optimised installations such as the
vertical slot pass or the Denil-pass guarantee the highest sh
acceptance while reducing the amount of bypass operation ow.
SHP-projects have often other functions besides the production
of electricity. The removal of the trash picked up at the screen at
an SHP plant guarantees the cleaning of the river. The increase of
ood protection or the adaptation as recreation area are items of
public interest and can be achieved by interdisciplinary and
sustainable planning.
Finally, environmental engineering can include the management
within the entire implementation process and the participation of
involved people is a typical topic.
This leaet has been prepared within the Thematic Network on
Small Hydropower (TNSHP) Project. The Thematic Network on Small
Hydropower (TNSHP) is a Euro-pean Commission - DG TREN (Transport
& Energy) and Swiss Government - funded project in the
framework of the EUs FP5 (Fifth Framework Programme for Research,
Technological Development and Demonstration - RD &D).
ESHA, the European Small Hydropower Association, is the European
co-ordinator of this project which includes ten additional
partners: ADEME (France), EPFL-LCH (Switzerland), ISET (Germany),
IT Power (United Kingdom), K (Austria), Lithuanian Hydropower
Association (Lithuania), MHyLab (Switzerland), SCPTH (France), SERO
(Sweden) and Studio Frosio (Italy).
This leaet is built on the RD&D Strategy document prepared
by the engineering group of the TNSHP, coordinated by MHyLab, which
presents the priorities for SHP short-term research.
If you would like to know more about this SHP RD&D Strategy
document, please contact ESHA or MHyLab.
Basin created by a weir
Illus
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Bru
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Fish bypass system
