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.	082	054	1000		Canada, bankruptcy 2010
AAER A-1500	AAER Inc.	080	077	1500		Canada, bankruptcy 2010
AAER A-2000	AAER Inc.	100	084	2000		Canada, bankruptcy 2010
Acciona AW-70	Acciona	080	070	1500
Acciona AW-77	Acciona	080	077	1500
Acciona AW-82	Acciona	080	082	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	080	080	1670		Alstom-Ecotècnia
Alstom ECO 86	Alstom	080	085.5	1670
Alstom ECO 80	Alstom	070	080	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	099	100.6	2300
Avantis AV 928	Avantis	080	093.2	2500
Bard 5.0	BARD	090	122	5000
3000	Blaaster	?	?	3000
B31 / 300	bonus	?	031	0300
B33 / 300	bonus	?	033	0300
B35 / 450	bonus	?	035	0450
B37 / 450	bonus	?	037	0450
B41 / 600	bonus	?	041	0600
B44 / 600	bonus	?	044	0600
B52 / 1000	bonus	?	052	1000
B54 / 1000	bonus	?	054.1	1000
B62 / 1300	bonus	?	062	1300
B76 / 2000	bonus	?	076	2000
B82 / 2300	bonus	?	082	2300
Clipper Windpower Liberty	Clipper Windpower	089/93/96/99	080	2500
DeWind D4 / 48	DeWind	045/60/70	048	0600
DeWind D6 / 62	DeWind	065	062	1000
DeWind D6 / 64	DeWind	092	064	1250		Fires in Gols : 2012 and 2017
DeWind D8 / 80	DeWind	100	080	2000
DeWind D8.2	DeWind	100	080	2000
Dewind 9.0 / 9.1	DeWind	080/100	093	2000
Ecotècnia 74 1.67	Alstom	060/70/80	074	1670
Ecotècnia 80	Alstom	070/80	080	2000
Ecotècnia 80 1.67	Alstom	060/70/80	080	1670
Ecotècnia 100	Alstom	090 ( 080/100)	100	3000
Enercon E-10	Enercon	?	010	0030th
Enercon E-12	Enercon	?	012	0030th
Enercon E-15/16	Enercon	?	015/16	0055
Enercon E-17/18	Enercon	?	017/18	0080
Enercon E-20	Enercon	020/30/40	020th	0100
Enercon E-30 / 2.30	Enercon	?	030th	0230
Enercon E-30 / 3.30	Enercon	?	030th	0300
Enercon E-32/33	Enercon	?	033	0280
Enercon E-33	Enercon	?	033	0330
Enercon E-40 / 5.40	Enercon	048/64	040	0500
Enercon E-40 / 6.44	Enercon	065	044	0600
Enercon E-44	Enercon	065	044	0900
Enercon E-48	Enercon	076	048	0900
Enercon E-53	Enercon	075	053	1000
Enercon E-58	Enercon	070	058	1000
Enercon E-66 / 15.66	Enercon	066	066	1500
Enercon E-66 / 18.70	Enercon	064/98/113	0070	1800
Enercon E-66 / 20.70	Enercon	064/98/113	0070	2000
Enercon E-70	Enercon	057/64/98/113	0071	2000/2300
Enercon E-82	Enercon	078/85/98/108/138	0082	2000/3000
Enercon E-82 E2	Enercon	078/85/98/108/138	0082	2300
Enercon E-82 E3	Enercon	078/85/98/108/138	0082	3000
Enercon E-92	Enercon	078/84/85/98/104/108/138	0092	2350
Enercon E-101	Enercon	099/135/149	101	3050
Enercon E-103 EP2	Enercon	098/138	103	2350
Enercon E-112	Enercon	124	112/114	4500/6000
Enercon E-115	Enercon	092/122/135/149	115	3050
Enercon E-126 EP4	Enercon	099/135/159	126	4200
Enercon E-141 EP4	Enercon	0129/159	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	082.4	2000
eno 92-2.2 MW	eno energy	103	092.8	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	?	037	0500
ET 550/41	Euroturbine	?	041	0550
Eviag ev 2.93	Eviag	100	093.2	2050
Eviag ev 100	Eviag	085/100 (160)	080/90/100	2500		Version with 160 hub height not yet implemented
Falcon 1.25 MW	Innovative wind power	060/75/100	064	1250
Fuhrländer FL-30	Fuhrländer	018/2	013	0030th
Fuhrländer FL-100	Fuhrländer	035	021st	0100
Fuhrländer FL-250	Fuhrländer	042/50	029.5	0250
Fuhrländer FL-600	Fuhrländer	050	050/75	0600
Fuhrländer FL-1000	Fuhrländer	082	054	1000
Fuhrländer FL-1250	Fuhrländer	062	050/70	1250
Fuhrländer FL-1500	Fuhrländer	112 (61.5-100)	070-77	1500
Fuhrländer FL-2500	Fuhrländer	098/141 (85-160)	090/100	2500
Gamesa G52	Gamesa	065	052	0850
Gamesa G58	Gamesa	071	058	0850
Gamesa G80-2.0 MW	Gamesa	100	080	2000
Gamesa G87-2.0 MW	Gamesa	100	087	2000
Gamesa G90-2.0 MW	Gamesa	100	090	2000
Gamesa G97-2.0 MW	Gamesa	078/90/100/120	097	2000
Gamesa G114-2.0 MW	Gamesa	093/120/140	114	2000
Gamesa G114-2.1 MW	Gamesa	080/93/106/125	114	2100
Gamesa G114-2.5 MW	Gamesa	064/80/93/106/120/140	114	2500
Gamesa G114-2,625 MW	Gamesa	068/80/93/125	114	2625
Gamesa G126-2.5 MW	Gamesa	084/102/125	126	2500
Gamesa G126-2,625 MW	Gamesa	084/102/125	126	2625
Gamesa G128-4.5 MW	Gamesa	081/120/125	128	4500
Gamesa G128-5.0 MW	Gamesa	081/95/120/140	128	5000		Partly designed for offshore use
Gamesa G132-5.0 MW	Gamesa	095/120/140	132	5000		Partly designed for offshore use
GE 1.5sl	General Electric	061/70/80/85/96/100	077	1500
GE 1.5sle	General Electric	085	077	1500
GE 1.5xle	General Electric	080	082.5	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	?	046	0600
G1650	Ghodawat	?	078	1650
GW62 / 1200	Gold wind	?	062	1200
GW70 / 1500	Gold wind	?	070	1500
GW77 / 1500	Gold wind	?	077	1500
GW82 / 1500	Gold wind	?	082	1500
S43 / 600	Gold wind	?	043	0600
S43 / 750	Gold wind	?	043	0750
S48 / 750	Gold wind	?	048	0750
S50 / 750	Gold wind	?	050	0750
S62 / 1200	Gold wind	?	062	1200
S70 / 1500	Gold wind	?	070	1500
HSW 750	Husum shipyard	?	046	0750
HSW 1000	Husum shipyard	?	054	1000
IWP Falcon 1.25 MW	IWP Falcon	064		1250
Kenersys K82-2.0 MW	Kenersys	080	082	2000
Kenersys K100-2.5 MW	Kenersys	100	100	2500
Kenersys K110-2.4 MW	Kenersys	135	109	2400
L93	Lanco	085/100	093.2	2050
Leitwind LTW 70	Leading wind	065	070	1700
Leitwind LTW 77	Leading wind	080	076.8	1500
Leitwind LTW 80	Leading wind	080	080.3	1500
Multibrid M5000	Orano	130	116	5000
Nordex N27 / 150	Nordex	041.5	027	0150
Nordex N27 / 250	Nordex	?	027	0250
Nordex N29	Nordex	050	029	0250
Nordex N43	Nordex	060 / 77.5	043	0600
Nordex S46	Nordex	?	046	0600
Nordex N50	Nordex	070	050	0800
Nordex N52	Nordex	062	052	0800/1000
Nordex N54	Nordex	060	054	1000		First series wind power plant with over 1 MW output
Nordex N60	Nordex	046/60/69	060	1300
Nordex N62	Nordex	060/69	062	1300
Nordex S70	Nordex	085	070	1500
Nordex S77	Nordex	100	077	1500
Nordex S82	Nordex	?	082	1500
Nordex N80	Nordex	060	080	2500
Nordex N90 / 2300	Nordex	080, 100, 105	090	2300
Nordex N90 / 2500	Nordex	065, 80, 85, 100	090	2500
Nordex N100 / 2500	Nordex	075, 80, 100, 140	100	2500
Nordex N100 / 3300	Nordex	075, 100	100	3300
Nordex N117 / 2400	Nordex	091, 120, 140	117	2400
Nordex N117 / 3000	Nordex	091, 120, 140	117	3000
Nordex N131 / 3000	Nordex	099, 114, 134	131	3000
Nordex N131 / 3300	Nordex	0134, 164	131	3300
Powerwind 56	PowerWind	071	056	0900
Powerwind 90	Powerwind	098	090	2500
Prokon P3000	Prokon	0142	116	3000
MD 70	Senvion	55/65/80	070	1500
MD 77	Senvion	061.5 / 85/100	077	1500
MM 70	Senvion	055/65/80	070	2000
MM 82	Senvion	100	082	2050
MM 92	Senvion	068.5 / 78.5 / 80/100	092.5	2050
MM 100	Senvion	80/100	0100	1800/2000
3.0M 122	Senvion	089/119/139	0122	3000
3.2M 114	Senvion	093/143	114	3200
3.4M 104	Senvion	078-100	104	3400
5 M	Senvion	117 onshore 085–95 offshore	126	5075
6.2M126	Senvion	100 onshore 085–95 offshore	126	6150
6.2M152	Senvion	121–124 onshore 097–100 offshore	152	6150
Schuler SDD 100	Student	100	100	2700
Sea wind 20/110	Sea wind	025.2 / 31.2	022nd	0110
Sea wind 25/132	Sea wind	025.2 / 31.2	022nd	0132
Sea wind 52/750	Sea wind	044/49/65 / 73.5	052	0750
SWT-2.3-82	Siemens	080	082	2300
SWT-2.3-93	Siemens	080	093	2300
SWT-2.3-101	Siemens	080	101	2300
SWT-2.3-113	Siemens	142.5	113	2300
SWT-3.0-101	Siemens	080	101	3000
SWT-3.6-107	Siemens	080	107	3600
SWT-3.6-120	Siemens	090	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		060	048	0600		[1]
Tacke TW 600	Tackle	050/60	043	0600
Tacke TW 600a	Tackle	060/70 / 76.9	046	0600
Tacke TW 1.5i	Tackle	065/67/80	065	1500
Tacke TW 1.5s	Tackle	064.7 / 80/85/100	077	1500
USW 56-100	Fly Tech	018th	017th	0107.5		[2]
VENSYS 70	Vensys Energy	065/85	070	1500
VENSYS 77	Vensys Energy	061.5 / 85/100	077	1500		A system built on what is currently (January 2013) the tallest wooden tower in Germany ( Hannover-Marienwerder wind turbine )
VENSYS 82	Vensys Energy	070/75/85/100	082	1500
VENSYS 87	Vensys Energy	085/100	087	1500
VENSYS 100	Vensys Energy	100	100	2500
VENSYS 109	Vensys Energy	095/140	109	2500
VENSYS 112	Vensys Energy	093.5 / 140	112	2500
V10-30kW	Vestas	018th	010	0030th
V12-22kW	Vestas	019th	012	0022nd
V15-55kW	Vestas	018th	015th	0055
V16-65kW	Vestas	018th	016	0065
V17-75kW	Vestas	022nd	017th	0075
V19-90kW	Vestas	?	019th	0090
V20-100kW	Vestas	024	020th	0100
V25-200kW	Vestas	030 / 38.5	025th	0200
V27-225kW	Vestas	?	027	0225
V29-225kW	Vestas	?	029	0225
V39-500kW	Vestas	040.5 / 53	039	0500
V42-600kW	Vestas	040.5 / 53	042	0600
V44-600kW	Vestas	040.5 / 53/63	044	0600
V47-660kW	Vestas	040/45/50/55	047	0660
V52-850kW	Vestas	065/74/86	052	0850
V63-1.5MW	Vestas	060	063	1500
V66-1.65MW	Vestas	060/78	066	01650
V66-1.75MW	Vestas	060/67/78	066	01750
V72-1.5MW	Vestas	?	072	01500
V80-1.8MW	Vestas	060/67/78	080	1800
V80-2MW	Vestas	060/67/78/100	080	2000
V82-1.5MW	Vestas	?	082	1500
V90-1.8MW	Vestas	080/95/105/125	090	1800
V90-2MW	Vestas	080/95/105	90	2000
V90-2MW grid streamer	Vestas	080/95/105/125	90	2000
V90-3MW	Vestas	065/80/105	90	3000
V100-1.8MW	Vestas	080/95/120	100	1800
V100-2.0MW	Vestas	080/95	100	2000
V100-2.6MW	Vestas	080/95/110/120/125	100	2600
V105-3.45MW	Vestas	072.5	105	3450
V110-2.0MW	Vestas	080/95/125	100	2000
V112-3.0MW	Vestas	084/94/119/140	112	3000
V112-3.3MW	Vestas	084/94/119/140	112	3300
V112-3.45MW	Vestas	069/94	112	3450
V117-3.45MW	Vestas	080 / 91.5 / 116.5	117	3450
V126-3.3MW	Vestas	0137	126	3300
V126-3.45MW	Vestas	087/117/137/147/149/166	126	3450
V136-3.45MW	Vestas	082/112/132/149	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	?	048	0750
F56	Wind power Frisia	?	056	0850
1566	Windtec	?	066	1500		Distribution of the license
1570	Windtec	?	070	1500		Distribution of the license
646	Windtec	?	046	0600		Distribution of the license
500	Windtec Floda	?	036	0500
600	Windtec Floda	?	045	0600
WWD-1-56	Winwind	?	056	1000
WWD-1-60	Winwind	?	060	1000
WWD-1-64	Winwind	?	064	1000
WWD-3-100	Winwind	?	100	3000
WWD-3-103	Winwind	?	103	3000
WWD-3-90	Winwind	?	090	3000
WWDI	Winwind	?	064	1200
60/1	WKA	?	060	1200
60/2	WKA	?	060	1310
Z-40	Zond	?	040	0500
Z-46	Zond	?	046	0750

Other designs

Two rotor blades, horizontal axis

designation	Manufacturer	Hub height (m)	Rotor diameter (m)	Nominal power (kW)	image	Remarks
A 1200	Car flight	?	061	1200
Aeolus I / WTS 75	ERNO-Bremen	076	075	2000		1983 on Gotland
GC 54	GC China	060/70	054	1000
GC 57	GC China	060/70	057	1000
GC 59	GC China	060/70	059	1000
Maglarp	Karlskronavarvet AB	078	080	3000		1984 Maglarp, ​​Sweden
LW15-75	Lagerwey	?	015th	0075
LW18 / 80	Lagerwey	?	018th	0080
Aeroman	MAN technology	015/22	014.8	0030th
Growian	MAN technology	100	100	3000		1983 Kaiser Wilhelm Koog
Aeolus II	MBB-Bremen	092	075	3000		1993 Jade wind farm
N 43	NedWind	?	043	0500
NedWind 51	NedWind	060	055	1000
NW 40	North wind	043.5	040	0500
NW 44	North wind	068	044	0750
N 1000	Nordic wind power	060/70	054/59	1000
SW 3.4	Skywind	133.5	107	3400		2015 Wind test field south of Husum
NEWECS-25	Stork -FDO	?	025th	0300
WES30 hybrid turbine		030th	030th	0250
NG Twelve-Five		015/24/30	012.5	0033
Gamma 2000
Gev10 / 25	Forgive	?	010	0025th
WM22 / 150	Wind master	?	022nd	0150
WM22 / 200	Wind master	?	021.8	0200
WM28 / 300	Wind master	?	028	0300
WM33 / 500	Wind master	?	033	0500
WM40 / 750	Wind master	?	040	0750
WM43 / 750	Wind master	?	043	0750		used with herring sand
WES 18	Wind Energy Solutions	031/41	016	0080

One rotor blade, horizontal axis

See also

• List of wind turbine manufacturers
• Wind energy

Individual evidence

1. ↑ 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.
2. ↑ ^{a b c d} www.w2e-rostock.de Retrieved on April 28, 2015
3. ↑ 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 . 
4. ↑ 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 .