参考文献

[1]United Nations.The Secretary-General's Advisory Group on Energy and Climate Change.‘ Energy for a Sustainable Future ' .New York.Available at:http://www.un.org/wcm/webdav/site/climatechange/shared/Documents/AGECC%20summary%20report[1].pdf.(Accessed 29 December 2012).

[2]Tolon-Becerra A,et al.Proposal for territorial distribution of the EU 2020 political renewable energy goal.Renewable Energy,2011,36 (8):2067-2077.

[3]Demirbas A.Energy issues and energy priorities.Energy Sources,Part B:Economics.Planning and Policy,2008,3 (1):41-9.

[4]Kalogirou S A.Solar thermal collectors and applications.Progress in Energy and Combustion Science,2004,30 (3):231-95.

[5]Whitman,C.T.The case for nuclear power.Business Week (4050),9/17/2007.

[6]Srinivasan,T.N.,Gopi Rethinaraj T.S.Fukushima and thereafter:Reassessment of risks of nuclear power.Energy Policy,2013,52:726-736.

[7]Abu-Khader,M.M.Recent advances in nuclear power:A review.Progress in Nuclear Energy,2009,51:225-235.

[8]D' haeseleer W.D.The importance of fusion development towards a future energy source.Fusion Engineering and Design.2003,(66-68):3-15.

[9]Nakicenovic,N.,et al.Global Energy Perspectives,Cambridge:Cambridge University Press,1998.

[10]Selley,R.C.UK shale gas:The story so far.Marine and Petroleum Geology,2012,31:100-109.

[1]Sun Z.C.et al.Natural gas storage in hydrates with the presence of promoters.Energy Conversion and Management,2003,44:2733-2742.

[12]Soderbergh,B.et al.A crash programme scenario for the Canadian oil sands industry.Energy Policy,2007,35:1931-1947.

[13]Bums,J.E.and Kang,J.S.Comparative economic analysis of supporting policies for residential solar PV in the United States:Solar Renewable Energy Credit (SREC)potential.Energy Policy,2012,44:217-225.

[14]Sesto,E.and Casale,C.Exploitation of wind as an energy source to meet the world's electricity demand.Journal of Wind Energy and Industrial Aerodynamics,1998,74-76:375-387.

[15]Chamorro,C.R.et al.World geothermal power production status:Energy,environmental and economic study of high enthalpy technologies.Energy,2012,42:10-18.

[16]Bhattacharya,S.C.et al.Sustainable biomass production for energy in selected Asian countries.Biomass and Bioenergy,2003,25:471-482.

[17]Hall,D.0.and Scrase,J.1.Will biomass be the environmentally friendly fuel of the future? Biomass and Bioenergy,1998,15:357-367.

[18]Manzano-Agugliaro,F.et al.Scientific production of renewable energies worldwide:An overview.Renewable and Sustainable Energy Reviews,2013,18:134-143.

[19]Sabin,A.D.Progress and recent trends in wind energy.Progress in Energy and Combustion Science,2004,30:501-543.

[20]Michalak,P.and Zimny J.Wind energy development in the world,Europe and Poland from 1995 to 2009,current status and future perspectives.Renewable and Sustainable Energy Reviews,2011,15:2330-2341.

[21]European Wind Energy Technology Platform.Strategic Research Agenda Market Deployment Strategy from 2008 to 2030.Available at:http://www.windplatform.eu/fileadmin/ewetp_docs/Bibliography/SRA_MDS_July_2008.pdf (Accessed 29 December 2012).

[22]Panofsky,H.A.and Zhao,M.Characteristics of wind profiles over complex terrain’ .Journal of Wind Engineering and Industrial Aerodynamics,1983,15 (1-3):177-183.

[23]Sánchez 1.Adaptive combination of forecasts with application to wind energy.International Journal of Forecasting,2008,24 (4):679-693.

[24]Zhou Y.et al.Joint R&D in low-carbon technology development in China:A case study of the wind-turbine manufacturing industry.Energy Policy,2012,46:100-108.

[25]de Alegrfa,1.M.et al.Connection requirements for wind farms:A survey on technical requirements and regulation’ .Renewable and Sustainable Energy Reviews,2007,11 (8):1858-1872.

[26]Mohseni,M,Islam,S.M.Review of international grid codes for wind power integration:Diversity,technology and a case for global standard’ .Renewable and Sustainable Energy Reviews,2012,16 (6):3876-3890.

[27]Lighthill,M.J.A new method of two-dimensional aerodynamic design.ARC R&M 2112,England.

[28]Stanitz,J.D.Design of two-dimensional channels with prescribed velocity distributions along the channel walls.NACA Report 1115,1953.

[29]P.,Chaviaropoulos et al.Compressible flow airfoil design using natural coordinates.Computer Methods in Applied Mechanics and Engineering,1992,110:131-142.

[30]Chorin,A.J.Numerical Solution of the Navier-Stokes Equations.Mathematics of Computation,1968.

[31]Pratap,V.S.,Spalding,D.B.Fluid Flow and Heat Transfer in Three-Dimensional Duct Flows.Int.J.Heat Mass Transfer,1976,19:1183-1188.

[32]Kwak,D.et al.A Three-Dimensional Incompressible Navier-Stokes Flow Solver Using Primitive Variables,AIAA Journal,1986,24:390-396.

[33]McHugh,P.R.,Knoll,D.A.Inexact Newton' s Methods Solutions to the Incompressible Navier-Stokes and Energy Equations Using Standard and Matrix-Free Implementations,AIAA Paper 93-3332-CP,1993.

[34]Patankar,S.V.’ Spalding,D.B.A Calculation Procedure for Heat,Mass and Momentum Transfer in Three-Dimensional Parabolic Flows.Int.J.Heat Mass Transfer,1972,15:1787-1806.

[35]Hood,P.,Taylor,C.A Numerical Solution of the Navier-Stokes Equations Using the Finite Element Technique.Computers and Fluids,1973,1:73-100.

[36]Bansod,P.,Rhie,C.M.Computation of Flow Through a Centrifugal Impeller with Tip Leakage.AIAA Paper 90-2021,1990.

[37]Chaviaropoulos,P.A Matrix-Free Pressure Solver for the Incompressible Navier-Stokes Equations.Application to 2-D Flows.ECCOMAS 94 Conference,1994.

[38]Schneider,G.E.,Zedan,M.A Modified Strongly Implicit Procedure for the Numerical Solution of Field Problems.Num.Heat Transfer,1981,4:1-19.

[39]Saad,Y.,Schultz,M.M.A Generalized Minimal Residual Algorithm for Solving Non-symmetric Linear Systems.SIAM J.Sci.Statist.Comput.,1986,7 (3):856-869.

[40]Giannakoglou,K.C.,Politis,E.S.A Segregated Implicit Solution Algorithm for 2D and 3D Laminar Incompressible Flows.Int.J.for Numerical Methods in Fluids,1995.21:1067-1086.

[41]Patankar,S.V.Numerical Heat Transfer and Fluid Flow,Hemisphere Publ.Corp,1980.

[42] Baldwin,B.,Lomax,M.This Layer Approximations and Algebraic Model for Separated Flow.AIAA Paper 78-0257,1978.

[43]Jones,W.P.Launder,B.E.The Calculation of Low-Reynolds-Number-Phenomena with a Two-Equation Model of Turbulence.Int.Journal of Heat and Mass Transfer,1973,16:1119-1130.

[44]Wilcox,D.C.Turbulence Modeling for CFD,DCW Industries Inc.,La Canada,California,1993.

[45]Bartels,R.H.et al.Bezier Curves.Ch.10 in An Introduction to Splines for Use in Computer Graphics and Geometric Modelling.San Francisco,CA:Morgan Kaufmann,1998:211-245.

[46]Green,J.E.Application of Head's Entrainment Method to the Prediction of Turbulent Boundary Layers and Wakes in Compressible Flow’ .Reports and Memoranda No.3788,1972.

[47]Smith,A.M.O.,Cebeci,T.Numerical solution of the turbulent boundary layer equations.Douglas aircraft division report DAC 33735,1967.

[48]Nelder,John A.,R.Mead A simplex method for function minimization.Computer Journal,1965,7:308-313.

[49]Jandali,T.Potential flow theory for airfoil spoilers.UBC Retrospective Theses Digitization Project,1970.

[50]XFOIL:Subsonic Airfoil Development System.Available at http://web.mit.edu/drela/Public/web/xfoil/(Accessed 29 December 2012).

[51]Center for Renewable Energy Sources and Saving.Available at http://www.cres.gr/kape/index_eng.htm(Accessed 29 December 2012).

[52]Baker,J.P.et al.Flat-back Airfoil Wind Tunnel Experiment.Sandia Report.SAND2008-2008 Unlimited Release,2008.

[53]ANSYS ICEM CFD.Available at http://www.ansys.com/Products/Other+Products/ANSYS+ICEM+CFD/(Accessed 29 December 2012).

[54]Menter,F.R.Zonal Two Equation k-w Turbulence Models for Aerodynamic Flows’ .AIAA Paper,1993:93-2906.

[55]Menter,F.R.Two-Equation Eddy-Viscosity Turbulence Models for Engineering Applications.AIAA Journal,1994,32 (8):1598-1605.

[56]van Dam,C.P.,Mayda,E.A.,Chao,D.D.et al Computational Design and Analusis of Flatback Airfoil Wind Tunnel Experiment.Sandia Report.SAND2008-2008 Unlimited Release,2008.