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NTIS 바로가기한국태양에너지학회 논문집 = Journal of the Korean Solar Energy Society, v.31 no.6, 2011년, pp.8 - 22
우재균 (강원대학교 대학원 기계메카트로닉스공학과) , 김현기 (강원대학교 대학원 기계메카트로닉스공학과) , 백인수 (강원대학교 기계메카트로닉스공학과) , 유능수 (강원대학교 기계메카트로닉스공학과) , 남윤수 (강원대학교 기계메카트로닉스공학과)
Investigations on modeling methods of a CFD wind resource prediction program, WindSim for a ccurate predictions of wind speeds were performed with the field measurements. Meteorological Masts having heights of 40m and 50m were installed at two different sites in complex terrain. The wind speeds and ...
K.H. Yoon, A Study on the Changes of the US Energy Policy and the Expansion of the New and Renewable Energy, J. of Korean Reg. Dev. 8 (2008) 151-179.
J. S. Hwang, H. J. Lee, S.H. Park, Green IT Policies for Low Carbon, Green Growth, J. of Korean Assoc. for Inform. Soc.14 (2008) 3-28.
J.B. Kil, B.K. Jung, Green Growth and Environment-Economy Integration: Between Modification and Transition, J. of Korean Inst. of Gov. Studies,15 (2009) 45-71.
J.M.L.M. Palma, F.A. Castro, L.F. Ribeiro, A.H. Rodrigues, A.P. Pinto, Linear and nonlinear models in wind resource assessment and windturbine micro-sitingin complex terrain, J. of Wind Eng. and Ind. Aerodyn. 96 (2008) 2308-2326.
A. Llombart, A. talayero, A. Mallet, and E. Telmo, Performance Analysis of Wind Resource Assessment Programs in Complex Terrain, Int'l. Conf. on Renew. Energies and Power Qual., 2006.
Risoe Laboratory, available online at http://www.wasp.dk/,last last seen in March 2010.
P. Moreno, A. R. Gravdahl, and M. Romero, Wind Flow over Complex Terrain: application of Linear and CFD Models, European Wind Energy Conf. and Exhib., Madrid, 2003.
T. Wallbank, WidSim Validation Study, CFD validation in Complex terrain, 2008. Available online at http://web.windsim.com/library/papers--presentations.aspx, lastaccessedinMarch2010.
G. Waston, N. Doublas, S. Hall, Comparison of Wind Flow Models in Complex Terrain, World Renew. Energy Congr., 2005.
K. Yoon, I. Paek, N. S. Yoo, Wind Speed Prediction using WAsP for Complex Terrain, Proc. of the 2008 autumn Conf. of Korea Wind Energy Assoc., 2008.
S. -W. Kim, H. -G. Kim, Sensitivity Analysis of Wind Resource Micrositing at the Antarctic King Sejong Station, J. of the Korean Solar Energy Soc. 27 (2007) 1-9.
R. Cattin, B. Schaffner, S. Kunz, Validation of CFD Wind Resource Modeling in Highly Complex Terrain, European Wind Energy Conf., Athens, 2006.
J. Maza, G. Nicoletti, "CFD-RANS applications in complex terrain analysis. Numerical vs experimental results. A case study: Cozzovallefondi wind farm in Sicily" European Wind Energy Conf., Athens, 2006
Y. Hwang, I. Paek, K. Yoon, W. Lee, N. Yoo and Y. Nam, "Application of wind data from automated weather stations to wind resources estimation in Korea," Journal of Mechanical Science and Technology, 2010.
N.G. Mortensen and E.L. Peterson, "Influence of topographical input data on the accuracy of wind flow modeling in complex terrain," RisO National Laboratory, Roskilde, Denmark
A.J. Bowen and N.G. Mortensen, "WAsP prediction errors due to site orography," RisO National Laboratory, Roskilde, Denmark, 2004.
Available online at www.cham.co.uk ,last seen in March 2010.
D. Fallo, "wind energy resource evaluation in a site of central Italy ny CFD simulations", Ph. D. Dissertation, Univ. of Cagliari, DiMeCa, 2007.
WindSim 4.8.1 Getting started, WindSim AS, Norway, 2008.
Developing Wind Power Projec
G.N. Kor, J. Ch. Huh, Introduction of Wind Energy Engineering, Munundang, Korea. 2008.
WindPRO Manual
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