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GHREPOWER Powering Your Future
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWERPowering Your Future
100kW Technical Information Pack
GHREPOWER Powering Your Future
Turbine Details
The GHREPOWER 100kW wind turbine has a gearless design, offering the advantages of:
• Greater simplicity and reliability
• Quieter operation
• Greater efficiency
It also has blade pitch control – a feature which increases efficiency and safety, but is only normally found in larger turbines.
All components of the system come with a five-year manufacturer’s warranty and we can also offer a five-year maintenance contract.
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
Technical Specification
General details
Model FD21-100/12
Rated power 100 kW
Maximum output 102 kW
Turbine type Upwind
Rotor diameter 21.5 m
Hub heights available 37 m, 31 m, 25 m, 21m
Wind class II
Design class II
Colour White
Rotor
Number of blades 3
Speed Variable
Rated rotor speed 60 rpm
Maximum rotor speed 65 rpm
Direction of rotation Clockwise
Swept area 364 m2
Blade material FRP
Yaw regulation Pitch control
Brake
Type Electromagnetic
Performance
Working wind speed 3 – 25 m/s
Rated wind speed 12 m/s
Survival wind speed 59.5 m/s
Rated output voltage 460 V (DC)
Remote monitoring system SCADA
Generator
Generator type 3 Phase, Permanent Magnet
Gearbox
Gearbox type No gearbox – Direct Drive
Tower
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
Tower sizes 35.9 m, 29.9 m, 23.6 m, 20m
Tower type Tubular
Tower material Steel
Tower sections 3 x 11.8 m, 3 x 9.8 m, 2 x 11.8 m, 2 x 10.0m
Weights
Blade 370 kg
Nacelle 7,100 kg
Tower 16,624 kg, 13,319 kg, 10,000 kg, 8,000 kg
Power Curve
Power Table
Wind Speed at Hub (m/s)
Power Output (kW)
Wind Speed at Hub (m/s)
Power Output (kW)
Wind Speed at Hub (m/s)
Power Output (kW)
3 1 11 94.8 19 100
4 3.7 12 100.4 20 100
5 10.7 13 101.9 21 100
6 19 14 100.5 22 100
7 29.7 15 100.3 23 100
8 44..3 16 100 24 100
9 60.3 17 100 25 100
10 78.9 18 100
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 250
20
40
60
80
100
120
Wind Speed at Hub (m/s)
Pow
er O
utp u
t (kW
)
GHREPOWER Powering Your Future
Dimensions:
The 100kW turbine is available with a 20m, 24m, 30m or 36m tower, giving hub heights of 21m, 25m, 31m and 37m. Scale drawings of each size are available on request.
Acoustic Sound Power Level:
Measurements have been assessed by Intertek to IEC 61400-11:2006 standard.
Sound power level at the hub is 99.6dB(A) – in standard conditions (at 10m/s, 10m height). Full report is available upon request. See appendix.
G59 Certification
The inverters we use are G59 certified, complying with UK DNO grid connection requirements. Full certified report available upon request. See appendix.
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
How much energy will be produced?
The energy produced depends on the wind speed at the site, determined by altitude, relief, aspect and obstructions. Wind speed increases with height above the ground therefore to maximise your energy yield it may be worth considering our highest tower height of 36m.
Estimates of energy yield require accurate wind data measured at the site. There is however a lot of information in the public domain, which will allow you to get a rough estimate of the wind speed at your site and from that the likely energy yield. The map below shows average wind speeds across the UK.
Government wind speed database:
DECC provides a database of average wind speed at a variety of heights for every 1km grid square across the UK. This database will provide you with a rough indication of the annual average wind speed of a site, but it is important to note that this information is only an estimate, based on an air flow model. The wind at your site will be affected by topography, elevation and obstructions such as trees and buildings. The wind speed is given for 45m, 25m and 10m above ground level. Use the level that is closest to your planned hub height.
http://www.decc.gov.uk/en/content/cms/meeting_energy/wind/windsp_databas/windsp_databas.aspx
Met Office data:
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
For a more accurate analysis the Met Office uses numerical modelling to provide annual mean wind speed estimates for specified grid locations and heights above the groundhttp://www.metoffice.gov.uk/energy/renewables/wind/site/metmast This information is not bankable, but does provide a more accurate way of evaluating projects than the DECC database. Full reports from the Met Office can cost several thousand pounds, but GHREPOWER can acquire the site mean wind speed estimates, on your behalf, for £250.00 per site. This service is charged at cost. Energy yield:
Once you have a good idea of the wind speed at your site you can see how it ties into the energy yield table below. This table is based on a 95% availability and also gives estimates for the amount of CO2 saved.
Average Wind Speed at Hub (m/s)
Energy Yield (kWh/yr)
Annual CO2 Saved (tonne)
5 149,796 68.96 233,016 107.27 316,236 145.58 382,812 176.19 441066 202.910 490998 225.9
How much money could I earn?
The amount of income generated from a wind turbine can be difficult to calculate. There are four components that make up the total value of the income generated, namely:
Feed-in Tariff (FiT) Export value Offset value for energy used on-site Renewables Levy Exemption Certificates (Renewables LECs)
Feed-in-Tariff:
The Feed-in Tariff is paid for every kilowatt-hour (kWh) of electricity generated regardless of whether it is consumed on-site or exported. This tariff is banded and has recently been reviewed.
The current tariff rate for a 100kW wind farm is 25.4p/kWh, this is set to be reduced to 21p/kWh from October 2012.
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
Once a wind farm is registered for the Feed-in Tariff it is locked into that tariff for 20 years, but is index-linked to RPI, so its value in real terms will not be affected by inflation.
The Feed-in Tariff banding applies to the total installed capacity of the wind farm, so if two GHREPOWER 100kW turbines were installed the total capacity would be 200kW and it would fall into the 20.7p/kWh band, not the 25.4p/kWh that would apply for a single GHREPOWER 100kw. However, if a second GHREPOWER 100kw was added to a site more than a year after the first GHREPOWER 100kw, then the second would get the lower FiT but the first would continue to receive the higher rate.
Offset value:
By using the electricity generated, on site, large savings can be made. The price paid for importing electricity from the grid varies depending on your tariff, but it is typically 12p/kWh. Therefore for every kWh used on site you make a saving of 12p, this value is considerably higher than the export value.
Export value:
Any electricity which isn't used on site is exported to the grid. The export value is payable for every kWh of electricity exported to the grid rather than used on site. This flow of electricity is recorded by an export meter. The government has set this value at a minimum of 3.1p/kWh (index-linked), however it is possible to negotiate a better rate with your electricity supplier.
Renewables Levy Exemption Certificates (Renewables LECs):
For commercial energy uses, the Renewables LEC offers an exemption from the Climate Change Levy (CCL) and another potential costs saving. The CCL is currently set at £4.85 / MWh (or 0.485 p/kWh) of electricity consumed.
In order to become exempt and gain a Renewables LEC, you need to register with Ofgem, at https://www.renewablesandchp.ofgem.gov.uk/.
Total income:
The table below combines all of these four components with estimated energy yields, to give a guide to potential income.
The table assumes that:• Current FIT rate of £0.254 per kW/h• Current FIT export rate of £0.031 per kW/h• 50% on-site consumption, with savings from own energy use at £0.12
per kW/h• LEC income on energy used at 0.485p per kW/h
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
• 95% availability for power generation
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
5 149,796 £38,048 £4,134 £2,322 £363 £44,8686 233,016 £59,186 £6,431 £3,612 £565 £69,7947 316,236 £80,324 £8,728 £4,902 £767 £94,7218 382,812 £97,234 £10,566 £5,934 £928 £114,6629 441,066 £112,031 £12,173 £6,837 £1,070 £132,110
10 490,998 £124,713 £13,552 £7,610 £1,191 £147,066
Average Wind
Speed at Hub (m/s)
Estimated Annual kW/h
Annual FiT Value
Annual savings
from own energy use
Annual Export Value
LEC Income
Total Annual Income
5 6 7 8 9 10£0
£20,000
£40,000
£60,000
£80,000
£100,000
£120,000
£140,000
£160,000
GHREPOWER 100kW Estimated Annual Income
Average Wind Speed at Hub (m/s)
Est
ima
ted
An
nu
al I
nco
me
GHREPOWER Powering Your Future
Cost
The table below shows the potential income and pay-back for three different scenarios.
Package Price from: (based on 36m tower) £285,000Wind Speed at Hub 5m/s 6m/s 7m/sAnnual Output in kWh 149,796 233,016 316,236Feed in Tariff Levels Pence/kWh 25.4 25.4 25.4Feed in Tariff Income-100% £38,048 £59,186 £80,324
Export 100% of EnergyExport Tariff to Grid at 3.1p on 100% £4,644 £7,223 £9,803Total Annual Financial Benefit £42,692 £66,410 £90,127Annual Percentage Return 19.41% 30.19% 40.97%Total Life Generation – 20 Years £853,837 £1,328,191 £1,802,545Payback in Years 6.7 4.3 3.2
Use 50% of Energy on Site50% Used on Site kWh 74,898 116,508 158,118Savings from own use at 12p on 50% £8,988 £13,981 £18,974Export Tariff to Grid at 3.1p on 50% £2,247 £3,495 £4,744LEC Savings at 0.485p/kWh of Energy Used on Site £363 £565 £767Total Annual Financial Benefit £49,646 £77,227 £104,809Annual Percentage Return 22.57% 35.10% 47.64%Total Life Generation – 20 Years £992,923 £1,544,547 £2,096,170Payback in Years 5.7 3.7 2.7
Use 100% of Energy on SiteSavings from own use at 12p on 100% £17,976 £27,962 £37,948Export Tariff to Grid at 3.1p on 100% £4,644 £7,223 £9,803LEC Savings at 0.485p/kWh £727 £1,130 £1,534Total Annual Financial Benefit £61,394 £95,502 £129,609Annual Percentage Return 27.91% 43.41% 58.91%Total Life Generation – 20 Years £1,227,878 £1,910,032 £2,592,186Payback in Years 4.6 3.0 2.2NOTE: Ongoing service and maintenance cost has not been considered here.
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
Grid Connection
Grid connection of any wind turbine is carried out by the Distribution Network Operator (DNO). Details of the DNO serving your region can be found on the national grid website. (http://www.nationalgrid.com/uk/Electricity/AboutElectricity/DistributionCompanies/ ).
The main requirement is a 3 phase grid connection point, which can be a maximum of 500m from your turbine.
The DNO will need to carry out a grid connection study in order to supply likely capacities and costs for grid connection.
More details regarding grid connection are available upon request.
Crane and Access Requirements
The turbine components will be delivered in standard 40 foot shipping containers. The turbine requires an 80 tonne crane for construction. A suitable access route for these vehicles will need to be identified.
At the site, an access track will need to be constructed to the turbine locations. This would be composed of hardcore and is expected to be 4m wide with a depth of 300mm, subject to survey. A crane hard-standing of 10m x 10m will also be required and constructed to the same specification as the access track.
More details regarding access requirements are available upon request.
Foundation Design
The foundation is made of reinforced concrete and a steel cage. Adjustable piping, and tubing for the earthing and cabling will be buried within the concrete. The tower is bolted to the foundations. Before the foundation construction takes place a geotechnical survey is required, and the exact foundation specification altered with respect to this.
The expected foundation size is 7 m x 7 m and 2 m deep.
More details regarding the foundation requirements are available upon request.
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
Appendix:
IEC 61400-11 Acoustic Emissions Certificate:
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
G59 certificate
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
GHREPOWER Powering Your Future
Additional Information: Comparison Table of the Medium-Sized Wind Turbines on the UK Market
GHREPOWER, 1 High Street, Clydach, Swansea, SA65LGwww.ghrepower.co.uk
Turbine GHREPOWER 50kW Endurance 50kW GHREPOWER 100kW VERGNET 275kW
45kW 55kW 77kW 95kW 243kwTower Height 20m, 25m 24m, 36.5m 30m, 36m 25m, 30m, 36m 32m, 55m
£190,000 £275,000 £350,000 £285,000 £680,000Wind Speed at Hub 6m/s 7m/s 6m/s 7m/s 6m/s 7m/s 6m/s 7m/s 6m/s 7m/sAnnual Output in kWh 87,381 124,830 168,900 217,700 222,000 298,000 233,016 316,236 550,000 695,000Feed in Tariff Levels Pence/kWh 25.4 25.4 25.4 25.4 25.4 25.4 25.4 25.4 20.6 20.6Feed in Tariff Income-100% £22,195 £31,707 £42,901 £55,296 £56,388 £75,692 £59,186 £80,324 £113,300 £143,170
Export 100% of Energy
£2,709 £3,870 £5,236 £6,749 £6,882 £9,238 £7,223 £9,803 £17,050 £21,545Total Annual Financial Benefit £24,904 £35,577 £48,137 £62,045 £63,270 £84,930 £66,410 £90,127 £130,350 £164,715Annual Percentage Return 13.11% 18.72% 17.50% 22.56% 18.08% 24.27% 30.19% 40.97% 19.17% 24.22%Total Life Generation – 20 Years £498,072 £711,531 £962,730 £1,240,890 £1,265,400 £1,698,600 £1,328,191 £1,802,545 £2,607,000 £3,294,300Payback in Years 7.6 5.3 5.7 4.4 5.5 4.1 4.3 3.2 5.2 4.1
Use 100% of Energy on Site
£10,486 £14,980 £20,268 £26,124 £26,640 £35,760 £27,962 £37,948 £66,000 £83,400
£2,709 £3,870 £5,236 £6,749 £6,882 £9,238 £7,223 £9,803 £17,050 £21,545LEC Savings at 0.485p/kWh £424 £605 £819 £1,056 £1,077 £1,445 £1,130 £1,534 £2,668 £3,371Total Annual Financial Benefit £35,813 £51,162 £69,224 £89,224 £90,987 £122,135 £95,502 £129,609 £199,018 £251,486Annual Percentage Return 18.85% 26.93% 25.17% 32.45% 26.00% 34.90% 43.41% 58.91% 29.27% 36.98%Total Life Generation – 20 Years £716,262 £1,023,232 £1,384,473 £1,784,487 £1,819,734 £2,442,706 £1,910,032 £2,592,186 £3,980,350 £5,029,715Payback in Years 5.3 3.7 4.0 3.1 3.8 2.9 3.0 2.2 3.4 2.7Note: Sales price in this table base on the public information available and based on highest tower.
NorthWind 100kW
Power Output at FiT Reference Wind Speed 11m/s
Package Price from (based on highest tower)
Export Tariff to Grid at 3.1p on 100%
Savings from own use at 12p on 100%Export Tariff to Grid at 3.1p on 100%