One of the smaller (relatively speaking) wind turbine manufacturers was targeting repowering existing sites. In the example they gave, they targeted replacing a 275 kW turbine,l with their ~900 kW unit, and simply derating their turbine to 275 kW to keep the grid connection (and FiT) the same.nowty wrote: ↑Tue Jul 18, 2023 7:19 pmThe way I read it (plus other info elsewhere) is it takes many years to get a new wind farm (seven years), but even though we have to go through the whole planning process again and re-build most things.AE-NMidlands wrote: ↑Tue Jul 18, 2023 6:27 pm I ws looking at the Ripple webbsite and found this (a bit late (Aug '22) but it seems relevant.) https://octopus.energy/blog/repowering- ... -turbines/ withIt seems that raising the tower is an integral part of it, but no mention of re-equippingthe actual generator?An illustration of an octopus extending a turbine blade... Preliminary sketch of the blade-lengthening process
The process to build any new energy generator can be long and difficult. Everything from upgrading the local networks to getting planning permission can take ages. It typically takes seven years for a new turbine projects to get fully operational. Actual construction can be completed in a year: most of the time is taken up by lengthy planning and grid connection processes.
Tuning up our existing turbines can take far less time. We already have the most spot on data for wind speeds on site and local topography. Consultations with the local community are far quicker because they've already had a turbine in their neighbourhood – we're just adjusting what's already there. Because a lot of the most time-consuming work is already done, we can get more green electrons down the wires in months, not years.
A
1) The local grid access point is there as it was before, so minimal grid work required.
2) The locals already have been used to the old windfarm so far less hostile to a new one so far easier to get the planning permission.
I believe these two aspects are the longest and hardest to get an otherwise greenfield wind farm operational from the drawing board.
Scottish onshore windfarm to be repowered
Re: Scottish onshore windfarm to be repowered
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Re: Scottish onshore windfarm to be repowered
I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
Effectively multiplying the CF by 900 over 275?
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30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
Re: Scottish onshore windfarm to be repowered
It would be good if the turbines could just output at their design capacity and the fit paid on 30% generation only with the remainder being bought on another contract. Its only paperwork... if the remainder of the site components can take the extra load.AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:12 am I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
It would be interesting to hear how it plays out?
15kW PV SE, VI, HM, EN
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42kWh LFPO4 storage
7kW ASHP
200ltr HWT.
73kWh HI5
Deep insulation, air leak ct'd home
WBSx2
Low energy bulbs
Veg patches & fruit trees
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Re: Scottish onshore windfarm to be repowered
I took it that "derating their turbine to 275 kW to keep the grid connection (and FiT) the same" was the crucial bit - avoiding the complications of any paperwork at all, let alone re-engineering!Joeboy wrote: ↑Wed Jul 19, 2023 10:16 amIt would be good if the turbines could just output at their design capacity and the fit paid on 30% generation only with the remainder being bought on another contract. Its only paperwork... if the remainder of the site components can take the extra load.AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:12 am I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
It would be interesting to hear how it plays out?
2.0 kW/4.62 MWh pa in Ripples, 4.5 kWp W-facing pv, 9.5 kWh batt
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
Re: Scottish onshore windfarm to be repowered
Fair enough. I just like to see stuff running flat out!AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:20 amI took it that "derating their turbine to 275 kW to keep the grid connection (and FiT) the same" was the crucial bit - avoiding the complications of any paperwork at all, let alone re-engineering!Joeboy wrote: ↑Wed Jul 19, 2023 10:16 amIt would be good if the turbines could just output at their design capacity and the fit paid on 30% generation only with the remainder being bought on another contract. Its only paperwork... if the remainder of the site components can take the extra load.AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:12 am I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
It would be interesting to hear how it plays out?
15kW PV SE, VI, HM, EN
42kWh LFPO4 storage
7kW ASHP
200ltr HWT.
73kWh HI5
Deep insulation, air leak ct'd home
WBSx2
Low energy bulbs
Veg patches & fruit trees
42kWh LFPO4 storage
7kW ASHP
200ltr HWT.
73kWh HI5
Deep insulation, air leak ct'd home
WBSx2
Low energy bulbs
Veg patches & fruit trees
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Re: Scottish onshore windfarm to be repowered
I suppose it depends on how they are derating the WT. If they are fitting smaller blades so that output peaks at 27kW, the results could be very different from furling the blades to limit peak outpu at 275kW,AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:12 am I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
If FITs are paid, would increasing the WT to 900 from 275 mean that only 275/900 worth of output is eligible for FITs similar to fitting more PV panels at home?
Re: Scottish onshore windfarm to be repowered
Yes, I just checked the latest FIT guidance doc, the pro rata'ing of the FIT rate (on a extension) is not in the specific PV rules section. Therefore its common to all FIT generation technologies.Countrypaul wrote: ↑Wed Jul 19, 2023 10:44 am If FITs are paid, would increasing the WT to 900 from 275 mean that only 275/900 worth of output is eligible for FITs similar to fitting more PV panels at home?
18.7kW PV > 109MWh generated
Ripple 6.6kW Wind + 4.5kW PV > 27MWh generated
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Ripple 6.6kW Wind + 4.5kW PV > 27MWh generated
6 Other RE Coop's
105kWh EV storage
60kWh Home battery storage
40kWh Thermal storage
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Rain water use > 510 m3
Re: Scottish onshore windfarm to be repowered
The derating of the turbine is on the electrical side. The mechanical bits such as the blades would be unaltered.Countrypaul wrote: ↑Wed Jul 19, 2023 10:44 amI suppose it depends on how they are derating the WT. If they are fitting smaller blades so that output peaks at 27kW, the results could be very different from furling the blades to limit peak outpu at 275kW,AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:12 am I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
If FITs are paid, would increasing the WT to 900 from 275 mean that only 275/900 worth of output is eligible for FITs similar to fitting more PV panels at home?
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Re: Scottish onshore windfarm to be repowered
... so that your bigger blades can continue delivering 275kW down to a much lower windspeed. As I said, isn't that like massively boosting the CF?smegal wrote: ↑Wed Jul 19, 2023 11:05 amThe derating of the [bigger] turbine is on the electrical side. The mechanical bits such as the blades would be unaltered...Countrypaul wrote: ↑Wed Jul 19, 2023 10:44 amI suppose it depends on how they are derating the WT. If they are fitting smaller blades so that output peaks at 27kW, the results could be very different from furling the blades to limit peak outpu at 275kW,AE-NMidlands wrote: ↑Wed Jul 19, 2023 10:12 am I guess this is like having massively over-sized panels and ignoring the summer excess going unused so that you have enough further into the shoulder months, i.e being able to supply the permitted amount of electricity to the grid even as the wind drops away far below the point where the smaller turbine would have stalled.
Effectively multiplying the CF by 900 over 275?
If FITs are paid, would increasing the WT to 900 from 275 mean that only 275/900 worth of output is eligible for FITs similar to fitting more PV panels at home?
2.0 kW/4.62 MWh pa in Ripples, 4.5 kWp W-facing pv, 9.5 kWh batt
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
30 solar thermal tubes, 2MWh pa in Stockport, plus Congleton and Kinlochbervie Hydros,
Most travel by bike, walking or bus/train. Veg, fruit - and Bees!
Re: Scottish onshore windfarm to be repowered
Yes, significantly boosting the CF.AE-NMidlands wrote: ↑Wed Jul 19, 2023 11:43 am... so that your bigger blades can continue delivering 275kW down to a much lower windspeed. As I said, isn't that like massively boosting the CF?smegal wrote: ↑Wed Jul 19, 2023 11:05 amThe derating of the [bigger] turbine is on the electrical side. The mechanical bits such as the blades would be unaltered...Countrypaul wrote: ↑Wed Jul 19, 2023 10:44 am
I suppose it depends on how they are derating the WT. If they are fitting smaller blades so that output peaks at 27kW, the results could be very different from furling the blades to limit peak outpu at 275kW,
If FITs are paid, would increasing the WT to 900 from 275 mean that only 275/900 worth of output is eligible for FITs similar to fitting more PV panels at home?
Max power would be at around 7 m/s instead of 15 m/s. Cut out wind speed would be unaltered.