Hansen M O L,S ?rensen J N,Voutsinas S,et al.State of the art in wind turbine aerodynamics and aeroelasticity[J].Progress in Aerospace Sciences,2006,42(4):285-330
[2]
Kim T,Dugundji J.Nonlinear large amplitude aeroelastic behavior of composite rotor blades[J].AIAA Journal,1993,31(8):1489-1497
[3]
Hansen M O L,S ?rensen J N,Voutsinas S,et al.State of the art in wind turbine aerodynamics and aeroelasticity[J].Progress in Aerospace Sciences,2006,42(4):285-330
[4]
Kim T,Dugundji J.Nonlinear large amplitude aeroelastic behavior of composite rotor blades[J].AIAA Journal,1993,31(8):1489-1497
[5]
Drela M.Integrated simulation model for preliminary aerodynamic,structure,and control-law design of aircraft[R].AIAA 99-1394,1999
[6]
Drela M.Integrated simulation model for preliminary aerodynamic,structure,and control-law design of aircraft[R].AIAA 99-1394,1999
[7]
Minuet P J,Dugundji J.Experiments and analysis for composite blades under large deflections,part I:static behavior[J].AIAA Journal,1990,28(9):1573-1579
[8]
Minuet P J,Dugundji J.Experiments and analysis for composite blades under large deflections,part I:static behavior[J].AIAA Journal,1990,28(9):1573-1579
[9]
潘登,吴志刚,杨超,等.大柔性飞机非线性载荷分析及优化[J].航空学报,2010,31(11):2146-2151 Pan Deng,Wu Zhigang,Yang Chao,et al.Nonlinear flight load analysis and optimization for large flexible aircraft[J].Acta Aeronautica et Astronautica Sinica,2010,31(11):2146-2151(in Chinese)
[10]
潘登,吴志刚,杨超,等.大柔性飞机非线性载荷分析及优化[J].航空学报,2010,31(11):2146-2151 Pan Deng,Wu Zhigang,Yang Chao,et al.Nonlinear flight load analysis and optimization for large flexible aircraft[J].Acta Aeronautica et Astronautica Sinica,2010,31(11):2146-2151(in Chinese)
[11]
Suzuki A.Application of dynamic inflow theory to wind turbine rotors[D].Salt Lake City:University of Utah,2000
[12]
Larsen J W,Nielsen S R K,Krenk S.Dynamic stall model for wind turbine airfoils[J].Journal of Fluids and Structures,2007,23(7):959-982
[13]
Suzuki A.Application of dynamic inflow theory to wind turbine rotors[D].Salt Lake City:University of Utah,2000
[14]
Larsen J W,Nielsen S R K,Krenk S.Dynamic stall model for wind turbine airfoils[J].Journal of Fluids and Structures,2007,23(7):959-982
[15]
Leishman J G.Challenges in modeling the unsteady aerodynamics of wind turbines[R].AIAA 2002-0037,2002
[16]
Leishman J G.Challenges in modeling the unsteady aerodynamics of wind turbines[R].AIAA 2002-0037,2002
[17]
Gupta S,Leishman J G.Dynamic stall modeling of the S809 airfoil and comparison with experiments[R].AIAA 2006-196,2006
[18]
Gupta S,Leishman J G.Dynamic stall modeling of the S809 airfoil and comparison with experiments[R].AIAA 2006-196,2006
[19]
Dai J C,Hu Y P,Liu D S,et al.Aerodynamic loads calculation and analysis for large scale wind turbine based on combining BEM modified theory with dynamic stall model[J].Renewable Energy,2011,36(3):1095-1104
[20]
Dai J C,Hu Y P,Liu D S,et al.Aerodynamic loads calculation and analysis for large scale wind turbine based on combining BEM modified theory with dynamic stall model[J].Renewable Energy,2011,36(3):1095-1104
[21]
Rahimian S K,Jalali F,Seader J D,et al.A new homotopy for seeking all real roots of a nonlinear equation[J].Computers and Chemical Engineering,2011,35(3):403-411
[22]
Rahimian S K,Jalali F,Seader J D,et al.A new homotopy for seeking all real roots of a nonlinear equation[J].Computers and Chemical Engineering,2011,35(3):403-411
[23]
李庆扬.非线性方程组的数值解法[M].北京:科学出版社,1987:123-153 Li Qingyang.Numerical method of system of nonlinear equation[M].Beijing:Science Press,1987:123-153(in Chinese)
[24]
李庆扬.非线性方程组的数值解法[M].北京:科学出版社,1987:123-153 Li Qingyang.Numerical method of system of nonlinear equation[M].Beijing:Science Press,1987:123-153(in Chinese)
[25]
Allgower E L,Georg K.Introduction to numerical continuation methods[M].Colorado:Colorado State University Press,1990
[26]
IEC 61400-1 3rd ed International standard-wind turbines,part 1:design requirements[S]
[27]
Burton T,Jenkins N,Sharpe D,et al.Wind energy handbook[M].New Delhi:Wiley,2011:199-204
[28]
Allgower E L,Georg K.Introduction to numerical continuation methods[M].Colorado:Colorado State University Press,1990
[29]
IEC 61400-1 3rd ed International standard-wind turbines,part 1:design requirements[S]
[30]
Burton T,Jenkins N,Sharpe D,et al.Wind energy handbook[M].New Delhi:Wiley,2011:199-204
