List of European wind turbine types
This list gives an overview of wind turbine types for the generation of electrical energy, the rotor diameter of which is more than ten meters and of which at least one example was built in Europe .
Standard design (three rotor blades, horizontal axis)
designation | Manufacturer | Hub height (m) | Rotor diameter (m) | Nominal power (kW) | image | Remarks | |
---|---|---|---|---|---|---|---|
AAER A-1000 S. | AAER Inc. | 82 | 54 | 1000 | Canada, bankruptcy 2010 | ||
AAER A-1500 | AAER Inc. | 80 | 77 | 1500 | Canada, bankruptcy 2010 | ||
AAER A-2000 | AAER Inc. | 100 | 84 | 2000 | Canada, bankruptcy 2010 | ||
Acciona AW-70 | Acciona | 80 | 70 | 1500 | |||
Acciona AW-77 | Acciona | 80 | 77 | 1500 | |||
Acciona AW-82 | Acciona | 80 | 82 | 1500 | |||
Acciona AW-100 | Acciona | approx. 100 (?) | 100 | 3000 | |||
Acciona AW-109 | Acciona | 120 | 109 | 3000 | |||
Acciona AW-116 | Acciona | 120 | 116 | 3000 | |||
Acciona AW-125 | Acciona | 87.5 / 120 | 125 | 3000 | |||
aeroMaster 1.5MW / 83 | Aerodyne | 83 | 70 | 1500 | |||
aeroMaster 2.5MW / 103 | Aerodyne | 103 | 80 | 2500 | |||
aeroMaster 5.0MW / 130 | Aerodyne | 130 | 100 | 5000 | |||
aeroMaster 5.0MW / 139 | Aerodyne | 139 | 100 | 5000 | |||
Alstom ECO 80 | Alstom | 80 | 80 | 1670 | Alstom-Ecotècnia | ||
Alstom ECO 86 | Alstom | 80 | 85.5 | 1670 | |||
Alstom ECO 80 | Alstom | 70 | 80 | 2000 | |||
Alstom ECO 100 | Alstom | 100 | 100 | 3000 | |||
Alstom ECO 110 | Alstom | 100 | 110 | 3000 | |||
Alstom ECO 122 | Alstom | ? | 122 | 2700 | |||
Alstom Haliade | Alstom | 100 | 150 | 6000 | |||
Avantis AV 1010 | Avantis | 99 | 100.6 | 2300 | |||
Avantis AV 928 | Avantis | 80 | 93.2 | 2500 | |||
Bard 5.0 | BARD | 90 | 122 | 5000 | |||
3000 | Blaaster | ? | ? | 3000 | |||
B31 / 300 | bonus | ? | 31 | 300 | |||
B33 / 300 | bonus | ? | 33 | 300 | |||
B35 / 450 | bonus | ? | 35 | 450 | |||
B37 / 450 | bonus | ? | 37 | 450 | |||
B41 / 600 | bonus | ? | 41 | 600 | |||
B44 / 600 | bonus | ? | 44 | 600 | |||
B52 / 1000 | bonus | ? | 52 | 1000 | |||
B54 / 1000 | bonus | ? | 54.1 | 1000 | |||
B62 / 1300 | bonus | ? | 62 | 1300 | |||
B76 / 2000 | bonus | ? | 76 | 2000 | |||
B82 / 2300 | bonus | ? | 82 | 2300 | |||
Clipper Windpower Liberty | Clipper Windpower | 89/93/96/99 | 80 | 2500 | |||
DeWind D4 / 48 | DeWind | 45/60/70 | 48 | 600 | |||
DeWind D6 / 62 | DeWind | 65 | 62 | 1000 | |||
DeWind D6 / 64 | DeWind | 92 | 64 | 1250 | Fires in Gols : 2012 and 2017 | ||
DeWind D8 / 80 | DeWind | 100 | 80 | 2000 | |||
DeWind D8.2 | DeWind | 100 | 80 | 2000 | |||
Dewind 9.0 / 9.1 | DeWind | 80/100 | 93 | 2000 | |||
Ecotècnia 74 1.67 | Alstom | 60/70/80 | 74 | 1670 | |||
Ecotècnia 80 | Alstom | 70/80 | 80 | 2000 | |||
Ecotècnia 80 1.67 | Alstom | 60/70/80 | 80 | 1670 | |||
Ecotècnia 100 | Alstom | 90 ( 80/100) | 100 | 3000 | |||
Enercon E-10 | Enercon | ? | 10 | 30th | |||
Enercon E-12 | Enercon | ? | 12 | 30th | |||
Enercon E-15/16 | Enercon | ? | 15/16 | 55 | |||
Enercon E-17/18 | Enercon | ? | 17/18 | 80 | |||
Enercon E-20 | Enercon | 20/30/40 | 20th | 100 | |||
Enercon E-30 / 2.30 | Enercon | ? | 30th | 230 | |||
Enercon E-30 / 3.30 | Enercon | ? | 30th | 300 | |||
Enercon E-32/33 | Enercon | ? | 33 | 280 | |||
Enercon E-33 | Enercon | ? | 33 | 330 | |||
Enercon E-40 / 5.40 | Enercon | 48/64 | 40 | 500 | |||
Enercon E-40 / 6.44 | Enercon | 65 | 44 | 600 | |||
Enercon E-44 | Enercon | 65 | 44 | 900 | |||
Enercon E-48 | Enercon | 76 | 48 | 900 | |||
Enercon E-53 | Enercon | 75 | 53 | 1000 | |||
Enercon E-58 | Enercon | 70 | 58 | 1000 | |||
Enercon E-66 / 15.66 | Enercon | 66 | 66 | 1500 | |||
Enercon E-66 / 18.70 | Enercon | 64/98/113 | 70 | 1800 | |||
Enercon E-66 / 20.70 | Enercon | 64/98/113 | 70 | 2000 | |||
Enercon E-70 | Enercon | 57/64/98/113 | 71 | 2000/2300 | |||
Enercon E-82 | Enercon | 78/85/98/108/138 | 82 | 2000/3000 | |||
Enercon E-82 E2 | Enercon | 78/85/98/108/138 | 82 | 2300 | |||
Enercon E-82 E3 | Enercon | 78/85/98/108/138 | 82 | 3000 | |||
Enercon E-92 | Enercon | 78/84/85/98/104/108/138 | 92 | 2350 | |||
Enercon E-101 | Enercon | 99/135/149 | 101 | 3050 | |||
Enercon E-103 EP2 | Enercon | 98/138 | 103 | 2350 | |||
Enercon E-112 | Enercon | 124 | 112/114 | 4500/6000 | |||
Enercon E-115 | Enercon | 92/122/135/149 | 115 | 3050 | |||
Enercon E-126 EP4 | Enercon | 99/135/159 | 126 | 4200 | |||
Enercon E-141 EP4 | Enercon | 129/159 | 141 | 4200 | Prototype built at the end of 2016 | ||
Enercon E-126 | Enercon | 135 | 127 | 6000/7500 | |||
eno 82-2.0 MW | eno energy | 101 | 82.4 | 2000 | |||
eno 92-2.2 MW | eno energy | 103 | 92.8 | 2200 | |||
eno 114-3.5 MW | eno energy | 92/122/142 | 114.9 | 3500 | |||
eno 126-4.0 MW | eno energy | ? | 126 | 4000 | |||
ET 500/36 | Euroturbine | ? | 37 | 500 | |||
ET 550/41 | Euroturbine | ? | 41 | 550 | |||
Eviag ev 2.93 | Eviag | 100 | 93.2 | 2050 | |||
Eviag ev 100 | Eviag | 85/100 (160) | 80/90/100 | 2500 | Version with 160 hub height not yet implemented | ||
Falcon 1.25 MW | Innovative wind power | 60/75/100 | 64 | 1250 | |||
Fuhrländer FL-30 | Fuhrländer | 18/2 | 13 | 30th | |||
Fuhrländer FL-100 | Fuhrländer | 35 | 21st | 100 | |||
Fuhrländer FL-250 | Fuhrländer | 42/50 | 29.5 | 250 | |||
Fuhrländer FL-600 | Fuhrländer | 50 | 50/75 | 600 | |||
Fuhrländer FL-1000 | Fuhrländer | 82 | 54 | 1000 | |||
Fuhrländer FL-1250 | Fuhrländer | 62 | 50/70 | 1250 | |||
Fuhrländer FL-1500 | Fuhrländer | 112 (61.5-100) | 70-77 | 1500 | |||
Fuhrländer FL-2500 | Fuhrländer | 98/141 (85-160) | 90/100 | 2500 | |||
Gamesa G52 | Gamesa | 65 | 52 | 850 | |||
Gamesa G58 | Gamesa | 71 | 58 | 850 | |||
Gamesa G80-2.0 MW | Gamesa | 100 | 80 | 2000 | |||
Gamesa G87-2.0 MW | Gamesa | 100 | 87 | 2000 | |||
Gamesa G90-2.0 MW | Gamesa | 100 | 90 | 2000 | |||
Gamesa G97-2.0 MW | Gamesa | 78/90/100/120 | 97 | 2000 | |||
Gamesa G114-2.0 MW | Gamesa | 93/120/140 | 114 | 2000 | |||
Gamesa G114-2.1 MW | Gamesa | 80/93/106/125 | 114 | 2100 | |||
Gamesa G114-2.5 MW | Gamesa | 64/80/93/106/120/140 | 114 | 2500 | |||
Gamesa G114-2,625 MW | Gamesa | 68/80/93/125 | 114 | 2625 | |||
Gamesa G126-2.5 MW | Gamesa | 84/102/125 | 126 | 2500 | |||
Gamesa G126-2,625 MW | Gamesa | 84/102/125 | 126 | 2625 | |||
Gamesa G128-4.5 MW | Gamesa | 81/120/125 | 128 | 4500 | |||
Gamesa G128-5.0 MW | Gamesa | 81/95/120/140 | 128 | 5000 | Partly designed for offshore use | ||
Gamesa G132-5.0 MW | Gamesa | 95/120/140 | 132 | 5000 | Partly designed for offshore use | ||
GE 1.5sl | General Electric | 61/70/80/85/96/100 | 77 | 1500 | |||
GE 1.5sle | General Electric | 85 | 77 | 1500 | |||
GE 1.5xle | General Electric | 80 | 82.5 | 1500 | |||
GE 1.6-82.5 | General Electric | 65/80 | 82.5 | 1600 | |||
GE 1.6-100 | General Electric | 80/96 | 100 | 1600 | |||
GE 2.5xl | General Electric | 100 | 100 | 2500 | |||
GE 2.5-100 | General Electric | 75/85/98/100 | 100 | 2500 | |||
GE 2.5-103 | General Electric | 85/98 | 103 | 2500 | |||
GE 2.5-120 | General Electric | 110/139 | 120 | 2500 | |||
GE 2.75-100 | General Electric | 75/85/98/100 | 103 | 2750 | |||
GE 2.75-103 | General Electric | 85/98 | 103 | 2750 | |||
GE 2.75-120 | General Electric | 110/139 | 120 | 2750 | |||
GE 3.2-103 | General Electric | 70/75/85 / 98.3 | 103 | 3200 | |||
GE 3.2-130 | General Electric | 110/134 | 130 | 3200 | |||
GE 3.4-137 | General Electric | 110/131/155 | 137 | 3400 | not realized yet | ||
600 | Genesys | ? | 46 | 600 | |||
G1650 | Ghodawat | ? | 78 | 1650 | |||
GW62 / 1200 | Gold wind | ? | 62 | 1200 | |||
GW70 / 1500 | Gold wind | ? | 70 | 1500 | |||
GW77 / 1500 | Gold wind | ? | 77 | 1500 | |||
GW82 / 1500 | Gold wind | ? | 82 | 1500 | |||
S43 / 600 | Gold wind | ? | 43 | 600 | |||
S43 / 750 | Gold wind | ? | 43 | 750 | |||
S48 / 750 | Gold wind | ? | 48 | 750 | |||
S50 / 750 | Gold wind | ? | 50 | 750 | |||
S62 / 1200 | Gold wind | ? | 62 | 1200 | |||
S70 / 1500 | Gold wind | ? | 70 | 1500 | |||
HSW 750 | Husum shipyard | ? | 46 | 750 | |||
HSW 1000 | Husum shipyard | ? | 54 | 1000 | |||
IWP Falcon 1.25 MW | IWP Falcon | 64 | 1250 | ||||
Kenersys K82-2.0 MW | Kenersys | 80 | 82 | 2000 | |||
Kenersys K100-2.5 MW | Kenersys | 100 | 100 | 2500 | |||
Kenersys K110-2.4 MW | Kenersys | 135 | 109 | 2400 | |||
L93 | Lanco | 85/100 | 93.2 | 2050 | |||
Leitwind LTW 70 | Leading wind | 65 | 70 | 1700 | |||
Leitwind LTW 77 | Leading wind | 80 | 76.8 | 1500 | |||
Leitwind LTW 80 | Leading wind | 80 | 80.3 | 1500 | |||
Multibrid M5000 | Orano | 130 | 116 | 5000 | |||
Nordex N27 / 150 | Nordex | 41.5 | 27 | 150 | |||
Nordex N27 / 250 | Nordex | ? | 27 | 250 | |||
Nordex N29 | Nordex | 50 | 29 | 250 | |||
Nordex N43 | Nordex | 60 / 77.5 | 43 | 600 | |||
Nordex S46 | Nordex | ? | 46 | 600 | |||
Nordex N50 | Nordex | 70 | 50 | 800 | |||
Nordex N52 | Nordex | 62 | 52 | 800/1000 | |||
Nordex N54 | Nordex | 60 | 54 | 1000 | First series wind power plant with over 1 MW output | ||
Nordex N60 | Nordex | 46/60/69 | 60 | 1300 | |||
Nordex N62 | Nordex | 60/69 | 62 | 1300 | |||
Nordex S70 | Nordex | 85 | 70 | 1500 | |||
Nordex S77 | Nordex | 100 | 77 | 1500 | |||
Nordex S82 | Nordex | ? | 82 | 1500 | |||
Nordex N80 | Nordex | 60 | 80 | 2500 | |||
Nordex N90 / 2300 | Nordex | 80, 100, 105 | 90 | 2300 | |||
Nordex N90 / 2500 | Nordex | 65, 80, 85, 100 | 90 | 2500 | |||
Nordex N100 / 2500 | Nordex | 75, 80, 100, 140 | 100 | 2500 | |||
Nordex N100 / 3300 | Nordex | 75, 100 | 100 | 3300 | |||
Nordex N117 / 2400 | Nordex | 91, 120, 140 | 117 | 2400 | |||
Nordex N117 / 3000 | Nordex | 91, 120, 140 | 117 | 3000 | |||
Nordex N131 / 3000 | Nordex | 99, 114, 134 | 131 | 3000 | |||
Nordex N131 / 3300 | Nordex | 134, 164 | 131 | 3300 | |||
Powerwind 56 | PowerWind | 71 | 56 | 900 | |||
Powerwind 90 | Powerwind | 98 | 90 | 2500 | |||
Prokon P3000 | Prokon | 142 | 116 | 3000 | |||
MD 70 | Senvion | 55/65/80 | 70 | 1500 | |||
MD 77 | Senvion | 61.5 / 85/100 | 77 | 1500 | |||
MM 70 | Senvion | 55/65/80 | 70 | 2000 | |||
MM 82 | Senvion | 100 | 82 | 2050 | |||
MM 92 | Senvion | 68.5 / 78.5 / 80/100 | 92.5 | 2050 | |||
MM 100 | Senvion | 80/100 | 100 | 1800/2000 | |||
3.0M 122 | Senvion | 89/119/139 | 122 | 3000 | |||
3.2M 114 | Senvion | 93/143 | 114 | 3200 | |||
3.4M 104 | Senvion | 78-100 | 104 | 3400 | |||
5 M | Senvion | 117 onshore 85–95 offshore |
126 | 5075 | |||
6.2M126 | Senvion | 100 onshore 85–95 offshore |
126 | 6150 | |||
6.2M152 | Senvion | 121–124 onshore 97–100 offshore |
152 | 6150 | |||
Schuler SDD 100 | Student | 100 | 100 | 2700 | |||
Sea wind 20/110 | Sea wind | 25.2 / 31.2 | 22nd | 110 | |||
Sea wind 25/132 | Sea wind | 25.2 / 31.2 | 22nd | 132 | |||
Sea wind 52/750 | Sea wind | 44/49/65 / 73.5 | 52 | 750 | |||
SWT-2.3-82 | Siemens | 80 | 82 | 2300 | |||
SWT-2.3-93 | Siemens | 80 | 93 | 2300 | |||
SWT-2.3-101 | Siemens | 80 | 101 | 2300 | |||
SWT-2.3-113 | Siemens | 142.5 | 113 | 2300 | |||
SWT-3.0-101 | Siemens | 80 | 101 | 3000 | |||
SWT-3.6-107 | Siemens | 80 | 107 | 3600 | |||
SWT-3.6-120 | Siemens | 90 | 120 | 3600 | |||
SWT-6.0-120 | Siemens | Location specific | 120 | 6000 | |||
SWT-6.0-154 | Siemens | Location specific | 154 | 6000 | Product brochure SWT-6.0 (PDF; 1.1 MB) | ||
SWT-7.0-154 | Siemens | Location specific | 154 | 7000 | |||
T600-48 | 60 | 48 | 600 | [1] | |||
Tacke TW 600 | Tackle | 50/60 | 43 | 600 | |||
Tacke TW 600a | Tackle | 60/70 / 76.9 | 46 | 600 | |||
Tacke TW 1.5i | Tackle | 65/67/80 | 65 | 1500 | |||
Tacke TW 1.5s | Tackle | 64.7 / 80/85/100 | 77 | 1500 | |||
USW 56-100 | Fly Tech | 18th | 17th | 107.5 | [2] | ||
VENSYS 70 | Vensys Energy | 65/85 | 70 | 1500 | |||
VENSYS 77 | Vensys Energy | 61.5 / 85/100 | 77 | 1500 | A system built on what is currently (January 2013) the tallest wooden tower in Germany ( Hannover-Marienwerder wind turbine ) | ||
VENSYS 82 | Vensys Energy | 70/75/85/100 | 82 | 1500 | |||
VENSYS 87 | Vensys Energy | 85/100 | 87 | 1500 | |||
VENSYS 100 | Vensys Energy | 100 | 100 | 2500 | |||
VENSYS 109 | Vensys Energy | 95/140 | 109 | 2500 | |||
VENSYS 112 | Vensys Energy | 93.5 / 140 | 112 | 2500 | |||
V10-30kW | Vestas | 18th | 10 | 30th | |||
V12-22kW | Vestas | 19th | 12 | 22nd | |||
V15-55kW | Vestas | 18th | 15th | 55 | |||
V16-65kW | Vestas | 18th | 16 | 65 | |||
V17-75kW | Vestas | 22nd | 17th | 75 | |||
V19-90kW | Vestas | ? | 19th | 90 | |||
V20-100kW | Vestas | 24 | 20th | 100 | |||
V25-200kW | Vestas | 30 / 38.5 | 25th | 200 | |||
V27-225kW | Vestas | ? | 27 | 225 | |||
V29-225kW | Vestas | ? | 29 | 225 | |||
V39-500kW | Vestas | 40.5 / 53 | 39 | 500 | |||
V42-600kW | Vestas | 40.5 / 53 | 42 | 600 | |||
V44-600kW | Vestas | 40.5 / 53/63 | 44 | 600 | |||
V47-660kW | Vestas | 40/45/50/55 | 47 | 660 | |||
V52-850kW | Vestas | 65/74/86 | 52 | 850 | |||
V63-1.5MW | Vestas | 60 | 63 | 1500 | |||
V66-1.65MW | Vestas | 60/78 | 66 | 1650 | |||
V66-1.75MW | Vestas | 60/67/78 | 66 | 1750 | |||
V72-1.5MW | Vestas | ? | 72 | 1500 | |||
V80-1.8MW | Vestas | 60/67/78 | 80 | 1800 | |||
V80-2MW | Vestas | 60/67/78/100 | 80 | 2000 | |||
V82-1.5MW | Vestas | ? | 82 | 1500 | |||
V90-1.8MW | Vestas | 80/95/105/125 | 90 | 1800 | |||
V90-2MW | Vestas | 80/95/105 | 90 | 2000 | |||
V90-2MW grid streamer | Vestas | 80/95/105/125 | 90 | 2000 | |||
V90-3MW | Vestas | 65/80/105 | 90 | 3000 | |||
V100-1.8MW | Vestas | 80/95/120 | 100 | 1800 | |||
V100-2.0MW | Vestas | 80/95 | 100 | 2000 | |||
V100-2.6MW | Vestas | 80/95/110/120/125 | 100 | 2600 | |||
V105-3.45MW | Vestas | 72.5 | 105 | 3450 | |||
V110-2.0MW | Vestas | 80/95/125 | 100 | 2000 | |||
V112-3.0MW | Vestas | 84/94/119/140 | 112 | 3000 | |||
V112-3.3MW | Vestas | 84/94/119/140 | 112 | 3300 | |||
V112-3.45MW | Vestas | 69/94 | 112 | 3450 | |||
V117-3.45MW | Vestas | 80 / 91.5 / 116.5 | 117 | 3450 | |||
V126-3.3MW | Vestas | 137 | 126 | 3300 | |||
V126-3.45MW | Vestas | 87/117/137/147/149/166 | 126 | 3450 | |||
V136-3.45MW | Vestas | 82/112/132/149 | 136 | 3450 | |||
V164-10.0MW | Vestas | 138 | 164 | 10,000 | Most powerful wind turbine in the world | ||
W2E-93 / 2.0 | W2E | 70-141 | 93 | 2050 | compact drive train, distribution of the license | ||
W2E-100 / 2.0 | W2E | 85-141 | 100 | 2050 | compact drive train, distribution of the license | ||
W2E-100 / 2.5 | W2E | 85-160 | 100, 103 | 2500 | compact drive train, distribution of the license | ||
W2E-120 / 3fc | W2E | 90-140 | 120 | 3000 | Hybrid drive train with 2-stage transmission and PMG, license distribution | ||
F48 | Wind power Frisia | ? | 48 | 750 | |||
F56 | Wind power Frisia | ? | 56 | 850 | |||
1566 | Windtec | ? | 66 | 1500 | Distribution of the license | ||
1570 | Windtec | ? | 70 | 1500 | Distribution of the license | ||
646 | Windtec | ? | 46 | 600 | Distribution of the license | ||
500 | Windtec Floda | ? | 36 | 500 | |||
600 | Windtec Floda | ? | 45 | 600 | |||
WWD-1-56 | Winwind | ? | 56 | 1000 | |||
WWD-1-60 | Winwind | ? | 60 | 1000 | |||
WWD-1-64 | Winwind | ? | 64 | 1000 | |||
WWD-3-100 | Winwind | ? | 100 | 3000 | |||
WWD-3-103 | Winwind | ? | 103 | 3000 | |||
WWD-3-90 | Winwind | ? | 90 | 3000 | |||
WWDI | Winwind | ? | 64 | 1200 | |||
60/1 | WKA | ? | 60 | 1200 | |||
60/2 | WKA | ? | 60 | 1310 | |||
Z-40 | Zond | ? | 40 | 500 | |||
Z-46 | Zond | ? | 46 | 750 |
Other designs
Two rotor blades, horizontal axis
designation | Manufacturer | Hub height (m) | Rotor diameter (m) | Nominal power (kW) | image | Remarks |
---|---|---|---|---|---|---|
A 1200 | Car flight | ? | 61 | 1200 | ||
Aeolus I / WTS 75 | ERNO-Bremen | 76 | 75 | 2000 |
1983 on Gotland |
|
GC 54 | GC China | 60/70 | 54 | 1000 | ||
GC 57 | GC China | 60/70 | 57 | 1000 | ||
GC 59 | GC China | 60/70 | 59 | 1000 | ||
Maglarp | Karlskronavarvet AB | 78 | 80 | 3000 |
1984 Maglarp, Sweden |
|
LW15-75 | Lagerwey | ? | 15th | 75 | ||
LW18 / 80 | Lagerwey | ? | 18th | 80 | ||
Aeroman | MAN technology | 15/22 | 14.8 | 30th | ||
Growian | MAN technology | 100 | 100 | 3000 |
1983 Kaiser Wilhelm Koog |
|
Aeolus II | MBB-Bremen | 92 | 75 | 3000 |
1993 Jade wind farm |
|
N 43 | NedWind | ? | 43 | 500 | ||
NedWind 51 | NedWind | 60 | 55 | 1000 | ||
NW 40 | North wind | 43.5 | 40 | 500 | ||
NW 44 | North wind | 68 | 44 | 750 | ||
N 1000 | Nordic wind power | 60/70 | 54/59 | 1000 | ||
SW 3.4 | Skywind | 133.5 | 107 | 3400 | 2015 Wind test field south of Husum | |
NEWECS-25 | Stork -FDO | ? | 25th | 300 | ||
WES30 hybrid turbine | 30th | 30th | 250 | |||
NG Twelve-Five | 15/24/30 | 12.5 | 33 | |||
Gamma 2000 | ||||||
Gev10 / 25 | Forgive | ? | 10 | 25th | ||
WM22 / 150 | Wind master | ? | 22nd | 150 | ||
WM22 / 200 | Wind master | ? | 21.8 | 200 | ||
WM28 / 300 | Wind master | ? | 28 | 300 | ||
WM33 / 500 | Wind master | ? | 33 | 500 | ||
WM40 / 750 | Wind master | ? | 40 | 750 | ||
WM43 / 750 | Wind master | ? | 43 | 750 | used with herring sand | |
WES 18 | Wind Energy Solutions | 31/41 | 16 | 80 |
One rotor blade, horizontal axis
designation | Manufacturer | Hub height (m) | Rotor diameter (m) | Nominal power (kW) | image | Remarks |
---|---|---|---|---|---|---|
Monopteros 20 | MBB | 20th | 15th | 15th | Cappel-Neufeld wind farm | |
Monopteros 50 | MBB | 60 | 47-56 | 650-1000 | Bremerhaven, Jade wind farm |
See also
Individual evidence
- ↑ 2.5 million euros damage after wind turbine fire bvz.at, February 27, 2012, accessed December 20, 2017. - The 2017 fire also affected a DeWind D6 in Gols: Wind turbine: short circuit possible cause of fire orf.at, December 20 2017, accessed December 20, 2017.
- ↑ a b c d www.w2e-rostock.de Retrieved on April 28, 2015
- ↑ The new two-winged aircraft makes trade fair visitors curious. Visitors to Husum Wind on the outskirts of the city notice an unusual wind turbine: a two-winged one. The 3.4 megawatt system has only been on the grid for a few days. www.erneubarenenergien.de, accessed on April 9, 2016 .
- ↑ Comeback of the two-winged aircraft. Although there were several two-winged aircraft in the early days of wind energy, the three-winged wing is now the measure of all things. Why do some development engineers continue to rely on this variant of wind energy - as in the Husum wind test field? Kieler Nachrichten, accessed on April 9, 2016 .