Our WINDblade Catalog

Welcome to our all license-ready WINDblade Catalog. You can select the blades you are interested in and use the “Send Request” button to receive data sheets for the selected blades and get in touch with our team for a more in depth inquiry.

Blades from our catalog

The results below approximately match your selection. You can select the blades you are interested in and use the “Send Request” button to receive data sheets for the selected blades and get in touch with our team for a more in depth inquiry.

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Blade Model

Select Blade
WINDblade1270-17.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 127.0 m
Structure S1
Weight 46.1 t
Rated Power 17.00 MW
Materials Carbon Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.486 0.477 0.468 0.458
Tip Speed Ratio
11.6
0.483
9.5 10.5 11.6 12.7 13.8
Performance Coefficient
WINDblade1190-12.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 2
Geometry G2
Length 119.0 m
Structure S1
Weight 45.8 t
Rated Power 13.00 MW
Materials Carbon Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.476 0.467 0.458 0.449
Tip Speed Ratio
11.8
0.473
9.9 11.0 12.0 13.1 14.2
Performance Coefficient
WINDblade1120-8.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 112.0 m
Structure S1
Weight 35.9 t
Rated Power 8.00 MW
Materials Glass Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.489 0.480 0.471 0.461
Tip Speed Ratio
10.9
0.486
9.1 10.1 11.1 12.2 13.2
Performance Coefficient
WINDblade1040-12.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 1
Geometry G1
Length 104.0 m
Structure S1
Weight 32.0 t
Rated Power 12.00 MW
Materials Carbon Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.490 0.481 0.471 0.462
Tip Speed Ratio
10.7
0.487
9.0 10.0 11.0 12.0 13.0
Performance Coefficient
WINDblade980-9.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 98.0 m
Structure S1
Weight 32.0 t
Rated Power 9.00 MW
Materials Carbon Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.489 0.479 0.470 0.461
Tip Speed Ratio
10.0
0.485
8.3 9.3 10.3 11.3 12.3
Performance Coefficient
WINDblade840-5.6
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 84.0 m
Structure S1
Weight 21.6 t
Rated Power 5.60 MW
Materials Carbon – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.485 0.476 0.467 0.457
Tip Speed Ratio
10.5
0.482
8.9 9.8 10.7 11.6 12.5
Performance Coefficient
WINDblade840-4.5
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 84.0 m
Structure S1
Weight 21.2 t
Rated Power 4.50 MW
Materials Glass Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.488 0.478 0.469 0.460
Tip Speed Ratio
10.4
0.484
8.6 9.6 10.6 11.6 12.7
Performance Coefficient
WINDblade836-6.4
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G4
Length 83.6 m
Structure S2
Weight 22.1 t
Rated Power 6.40 MW
Materials Carbon – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.482 0.472 0.463
Tip Speed Ratio
11.1
0.488
9.3 10.3 11.3 12.3 13.2
Performance Coefficient
WINDblade810-3.5
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G2
Length 81.0 m
Structure S1
Weight 17.4 t
Rated Power 3.50 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.481 0.472 0.462
Tip Speed Ratio
10.6
0.487
8.8 9.8 10.8 11.9 12.9
Performance Coefficient
WINDblade785-3.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 78.5 m
Structure S1
Weight 16.8 t
Rated Power 3.30 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.482 0.473 0.463
Tip Speed Ratio
10.6
0.488
8.8 9.8 10.8 11.8 12.9
Performance Coefficient
WINDblade740-4.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G5
Length 74.0 m
Structure S1
Weight 21.4 t
Rated Power 4.00 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.481 0.472 0.462
Tip Speed Ratio
10.6
0.487
8.9 9.9 10.9 11.9 12.9
Performance Coefficient
WINDblade720-3.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G2
Length 72.0 m
Structure S1
Weight 19.9 t
Rated Power 3.00 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.490 0.481 0.471 0.462
Tip Speed Ratio
10.9
0.486
9.1 10.1 11.1 12.1 13.1
Performance Coefficient
WINDblade710-3.0
0m 20m 40m 60m 80m 100m 120m 140m
Specific challenge: High Capacity factor for new and existing 3MW turbines.
Solution: Load-minimizing aerodynamic design and sophisticated materials for operation on existing turbines of the 3MW class.
Windclass 3
Geometry G1
Length 71.0 m
Structure S1
Weight 19.4 t
Rated Power 3.00 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.494 0.484 0.475 0.465
Tip Speed Ratio
10.2
0.490
8.6 9.6 10.5 11.4 12.3
Performance Coefficient
WINDblade665-3.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 66.5 m
Structure S1
Weight 18.0 t
Rated Power 3.00 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.482 0.472 0.463
Tip Speed Ratio
9.4
0.487
7.9 8.8 9.7 10.6 11.5
Performance Coefficient
WINDblade635-2.5
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 63.5 m
Structure S1
Weight 14.6 t
Rated Power 2.00 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.492 0.483 0.473 0.464
Tip Speed Ratio
9.8
0.488
8.2 9.2 10.1 11.1 12.1
Performance Coefficient
WINDblade568-2.0
0m 20m 40m 60m 80m 100m 120m 140m
Specific challenge: High Capacity factor for new and existing 2MW turbines.
Solution: Load-minimizing aerodynamic design and sophisticated materials for operation on existing turbines of the 2MW class.
Windclass 3
Geometry G1
Length 56.8 m
Structure S1
Weight 12.1 t
Rated Power 2.00 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.481 0.472 0.463
Tip Speed Ratio
10.4
0.487
8.7 9.7 10.6 11.6 12.5
Performance Coefficient
WINDblade552-2.0
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G4
Length 55.2 m
Structure S2
Weight 9.3 t
Rated Power 2.00 MW
Materials Glass Pultrusion – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.479 0.469 0.460 0.451
Tip Speed Ratio
10.6
0.475
9.0 9.9 10.9 11.8 12.7
Performance Coefficient
WINDblade488-1.5
0m 20m 40m 60m 80m 100m 120m 140m
Specific challenge: Operating 1.5MW turbines competitive at low wind speed sites.
Solution: Extra large swept area and low loads, low blade mass due to high performance glass fibers.
Windclass 2
Geometry G1
Length 48.8 m
Structure S4
Weight 8.1 t
Rated Power 1.50 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.491 0.482 0.473 0.463
Tip Speed Ratio
9.3
0.488
7.7 8.7 9.6 10.6 11.5
Performance Coefficient
WINDblade300-1.5
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 2
Geometry G2
Length 30.0 m
Structure S1
Weight 3.7 t
Rated Power 1.50 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.490 0.481 0.472 0.462
Tip Speed Ratio
10.2
0.487
8.5 9.4 10.4 11.3 12.3
Performance Coefficient
WINDblade170-0.2
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 3
Geometry G1
Length 17.0 m
Structure S1
Weight 0.7 t
Rated Power 0.20 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.492 0.483 0.474 0.464
Tip Speed Ratio
9.4
0.489
7.8 8.8 9.7 10.7 11.6
Performance Coefficient
WINDblade080-0.06
0m 20m 40m 60m 80m 100m 120m 140m
Windclass 2
Geometry G1
Length 8.0 m
Structure S1
Weight 0.2 t
Rated Power 0.10 MW
Materials Glass – Fibre Reinforced Epoxy
Production Method Vacuum Infusion
0.498 0.489 0.479 0.469
Tip Speed Ratio
8.3
0.494
7.0 7.8 8.7 9.5 10.4
Performance Coefficient
0m 20m 40m 60m 80m 100m 120m 140m
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