Protected wind turbine blade, a method of manufacturing it and a wind turbine

US 8,961,142 B2
Filed: 04/09/2010
Issued: 02/24/2015
Est. Priority Date: 04/10/2009
Status: Expired due to Fees

First Claim

Patent Images

1. A protected turbine blade, comprising a first turbine blade shell and a second turbine blade shell, said first turbine blade and said second turbine blade shell being fiber-reinforced turbine blade shells connected by cured resin and provided with a protective cover at a leading edge of the turbine blade for protecting the cured resin at the leading edge of the turbine blade against erosion, wherein the protective cover is a composite comprising a layer of UV-resistant thermoplastic material and a layer of cured epoxy resin, each of the layer of UV-resistant thermoplastic material and a cured epoxy resin forming a connection with fibers of the fiber-reinforced turbine blade shells, the UV-resistant thermoplastic material having the following propertiesa surface free energy of less than 35 mJ/m², andan erosion resistance larger than an erosion resistance of the cured resin connecting the turbine blade shells,wherein the layer of cured epoxy resin covers the cured resin used for connecting the first and second blade shells over at least part of a length of a distal half of the turbine blade, and is bonded to said turbine blade.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A protected turbine blade includes a first turbine blade shell and a second turbine blade shell, being fiber-reinforced, are connected by a cured resin and provided with a protective cover at a leading edge. The protective cover is a composite comprising a layer of UV-resistant thermoplastic material and a layer of cured epoxy resin, the UV-resistant thermoplastic material having the following properties a surface free energy of less than 35 mJ/m², and a erosion resistance of the thermoplastic material larger than the erosion resistance of the cured resin connecting the turbine blade shells. The layer of cured epoxy-resin covers the cured resin over at least part of the length of the distal half of the turbine blade, and is bonded to said turbine blade. A method of manufacturing such a turbine blade, and to a turbine having such turbine blades is also provided.

64 Citations

View as Search Results

10 Claims

1. A protected turbine blade, comprising a first turbine blade shell and a second turbine blade shell, said first turbine blade and said second turbine blade shell being fiber-reinforced turbine blade shells connected by cured resin and provided with a protective cover at a leading edge of the turbine blade for protecting the cured resin at the leading edge of the turbine blade against erosion, wherein the protective cover is a composite comprising a layer of UV-resistant thermoplastic material and a layer of cured epoxy resin, each of the layer of UV-resistant thermoplastic material and a cured epoxy resin forming a connection with fibers of the fiber-reinforced turbine blade shells, the UV-resistant thermoplastic material having the following propertiesa surface free energy of less than 35 mJ/m², andan erosion resistance larger than an erosion resistance of the cured resin connecting the turbine blade shells,wherein the layer of cured epoxy resin covers the cured resin used for connecting the first and second blade shells over at least part of a length of a distal half of the turbine blade, and is bonded to said turbine blade.
- View Dependent Claims (2, 3, 4)
- - 2. The protected turbine blade according to claim 1, wherein the UV-resistant thermoplastic material is UV-stabilized polyolefin.
  - 3. The protected turbine blade according to claim 2, wherein the polyolefin is ultrahigh molecular weight polyethylene, ultrahigh molecular weight polypropylene or copolymers of polyethylene and polypropylene, or blends comprising polyethylene and polypropylene.
  - 4. The protected turbine blade according to claim 1, wherein the layer of cured epoxy resin is a layer of fiber-reinforced cured epoxy resin, the fibers being partially embedded in the cured epoxy resin and partially embedded in a remainder of the composite.

5. A method for manufacturing a protected turbine blade having a first turbine blade shell and a second turbine blade shell, said first turbine blade shell and said second turbine blade shell being fiber-reinforced turbine blade shells connected by cured resin and provided with a protective cover at a leading edge of the turbine blade for protecting the cured resin at the leading edge of the turbine blade against erosion, wherein the protective cover is a composite comprising a layer of UV-resistant thermoplastic material and a layer of cured epoxy resin, the UV-resistant thermoplastic material having the following propertiesa surface free energy of less than 35 mJ/m², andan erosion resistance larger than an erosion resistance of the cured resin connecting the turbine blade shells,wherein the layer of cured epoxy resin covers the cured resin used for connecting the first and second blades shell over at least part of a length of a distal half of the turbine blade, and is bonded to said turbine blade, the method comprising:
- the UV resistant thermoplastic material is heated in a mold until it softens,one side of a fabric comprised of bundles of fibers placed on top of one side of the thermoplastic material is immersed in said softened thermoplastic material,the thermoplastic material provided with the fabric comprised of bundles of fibers is cooled down;
  
  a second side of the fabric of the thermoplastic material provided with the fabric comprised of bundles of fibers is immersed in curable resin, and the curable resin is cured to yield a layer of cured epoxy resin,to yield a shaped cover of composite material, after whichcurable resin is applied to at least one of i) at least part of the length of the distal half of the turbine blade, and ii) the side of the shaped cover comprising cured epoxy resin;
  
  the shaped cover is placed over at least part of the length of the distal half of the leading edge of a turbine blade assembly composed of two turbine blade shells connected by cured resin, such that over at least part of the length of the distal half of the turbine blade said cured resin is covered by the shaped cover, andthe shaped cover is bonded to said turbine blade assembly by curing the curable resin;
  
  to yield the protected turbine blade.
- View Dependent Claims (6)
- - 6. The method according to claim 5, wherein when curing the curable resin to yield the layer of cured epoxy resin of the shaped cover, at the side of curable resin opposite to the side that is contains immersed bundles of fibers of the fabric a textured peel ply is present to provide a rough surface of increased surface area to increase the bond strength between the shaped cover and the turbine blade.

7. A wind turbine comprising at least one turbine blade comprising a first turbine blade shell and a second turbine blade shell, said first turbine blade shell and said second turbine blade shell being fiber-reinforced turbine blade shells connected by cured resin and provided with a protective cover at a leading edge of the turbine blade for protecting the cured resin at the leading edge of the turbine blade against erosion, wherein the protective cover is a composite comprising a layer of UV-resistant thermoplastic material and a layer of cured epoxy resin, each of the layer of UV-resistant thermoplastic material and the cured epoxy resin forming a connection with fibers of the fiber-reinforced turbine blade shells, the UV-resistant thermoplastic material having the following propertiesa surface free energy of less than 35 mJ/m², andan erosion resistance larger than an erosion resistance of the cured resin connecting the turbine blade shells,first and second blade shells over at least part of a length of a distal half of the turbine blade, and is bonded to said turbine blade.
- View Dependent Claims (8, 9, 10)
- - 8. The wind turbine according to claim 7, wherein the UV-resistant thermoplastic material is UV-stabilized polyolefin.
  - 9. The wind turbine according to claim 8, wherein the polyolefin is ultrahigh molecular weight polyethylene, ultrahigh molecular weight polypropylene or copolymers of polyethylene and polypropylene, or blends comprising polyethylene and polypropylene.
  - 10. The wind turbine according to claim 7, wherein the layer of cured epoxy resin is a layer of fiber-reinforced cured epoxy resin, the fibers being partially embedded in the cured epoxy resin and partially embedded in a remainder of the composite.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Xemc Darwind B.V.
Original Assignee
Xemc Darwind B.V.
Inventors
Wansink, Gerrit Jan
Primary Examiner(s)
MCDOWELL, LIAM J

Application Number

US13/263,783
Publication Number

US 20120034094A1
Time in Patent Office

1,782 Days
Field of Search

416/224, 416/229.R, 416/230, 416/241.A, 416/241.R, 298/892.1
US Class Current

416/224
CPC Class Codes

B29D 99/0025   Producing blades or the lik...

B29K 2995/0087   Wear resistance

B29L 2031/08   Blades for rotors, stators,...

F03D 1/0675   of the blades

F05B 2280/6003   Composites; e.g. fibre-rein...

F05C 2253/04   Composite, e.g. fibre-reinf...

Y02E 10/72   Wind turbines with rotation...

Y02P 70/50   Manufacturing or production...

Y10T 156/1002   with permanent bending or r...

Protected wind turbine blade, a method of manufacturing it and a wind turbine

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

64 Citations

10 Claims

Specification

Solutions

Use Cases

Quick Links

Protected wind turbine blade, a method of manufacturing it and a wind turbine

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

64 Citations

10 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links