References
- Ha SK, Hayat K, Xu L. Effect of shallow-angled skins on the structural performance of the large-scale wind turbine blade. Renewable Energy. 2014;71:100–112.10.1016/j.renene.2014.05.023
- Griffith DT, Ashwill TD. The Sandia 100-meter all-glass baseline wind turbine blade: SNL100-00. Albuquerque: Sandia National Laboratories; 2011. ( Technical Report, SAND2011-3779).
- Griffin DA, Zuteck MD. Scaling of composite wind turbine blades for rotors of 80 to 120 meter diameter. J Sol Energy Eng. 2001;123(4):310–318.10.1115/1.1413215
- Peeringa J, Brood R, Ceyhan O, et al. Upwind 20 MW wind turbine pre-design. Netherlands: ECN; 2011. ( Paper No. ECN-E–11-017).
- IEC61400-1. Wind turbine-Part 1: design requirements. Geneva: International Electrotechnical Commission Standard; 2005.
- Lloyd G. Guideline for the certification of offshore wind turbines. Hamburg: Germanischer Lloyd; 2005.
- Veers P, Lobitz D, Bir G. Aeroelastic tailoring in wind-turbine blade applications. Albuquerque: Sandia National Labs; 1998.
- de Goeij W, van Tooren M, Beukers A. Implementation of bending-torsion coupling in the design of a wind-turbine rotor-blade. Appl Energy. 1999;63(3):191–207.10.1016/S0306-2619(99)00016-1
- Hayat K, Ha SK. Load mitigation of wind turbine blade by aeroelastic tailoring via unbalanced laminates composites. Compos Struct. 2015;128:122–133.10.1016/j.compstruct.2015.03.042
- Kollár, LP, Springer GS. Mechanics of composite structures. New York: Cambridge University Press; 2003.
- Burton T, Jenkins N, Sharpe D, et al. Wind energy handbook. West Sussex: John Wiley & Sons; 2011.
- Manwell JF, McGowan JG, Rogers AL. Wind energy explained: theory, design and application. Wiley Online Library; 2002.
- Spera DA. Wind turbine technology: fundamental concepts of wind turbine engineering. New York: ASME Press; 1994. Chapter 9.
- Veritas N. Guidelines for design of wind turbines. Det Norske Veritas: Wind Energy Department, Ris ̜National Laboratory; 2002.
- Lobitz DW, Veers PS, Eisler GR, et al. The use of twist-coupled blades to enhance the performance of horizontal axis wind turbines. Albuquerque: Sandia National Laboratories; 2001.
- Ong C-H, Tsai SW. Design, manufacture and testing of a bend-twist D-spar. Albuquerque: Sandia National Laboratories; 1999.