Wind Speed Prediction in Complex Terrain Using a Commercial CFD Code |
Woo, Jae-Kyoon
(Dept. of Mechanical and Mechatronics Engineering, Kangwon National University, Graduate School)
Kim, Hyeon-Gi (Dept. of Mechanical and Mechatronics Engineering, Kangwon National University, Graduate School) Paek, In-Su (Dept. of Mechanical and Mechatronics Engineering, Kangwon National University) Yoo, Neung-Soo (Dept. of Mechanical and Mechatronics Engineering, Kangwon National University) Nam, Yoon-Su (Dept. of Mechanical and Mechatronics Engineering, Kangwon National University) |
1 | 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. |
2 | R. Cattin, B. Schaffner, S. Kunz, Validation of CFD Wind Resource Modeling in Highly Complex Terrain, European Wind Energy Conf., Athens, 2006. |
3 | 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 |
4 | 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. |
5 | 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 |
6 | A.J. Bowen and N.G. Mortensen, "WAsP prediction errors due to site orography," RisO National Laboratory, Roskilde, Denmark, 2004. |
7 | 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. |
8 | 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. |
9 | 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. |
10 | 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. DOI ScienceOn |
11 | Developing Wind Power Projec |
12 | Available online at www.cham.co.uk ,last seen in March 2010. |
13 | D. Fallo, "wind energy resource evaluation in a site of central Italy ny CFD simulations", Ph. D. Dissertation, Univ. of Cagliari, DiMeCa, 2007. |
14 | WindSim 4.8.1 Getting started, WindSim AS, Norway, 2008. |
15 | G.N. Kor, J. Ch. Huh, Introduction of Wind Energy Engineering, Munundang, Korea. 2008. |
16 | WindPRO Manual |
17 | T. Wallbank, WidSim Validation Study, CFD validation in Complex terrain, 2008. Available online at http://web.windsim.com/library/papers--presentations.aspx, lastaccessedinMarch2010. |
18 | 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. |
19 | Risoe Laboratory, available online at http://www.wasp.dk/,last last seen in March 2010. |
20 | 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. |
21 | G. Waston, N. Doublas, S. Hall, Comparison of Wind Flow Models in Complex Terrain, World Renew. Energy Congr., 2005. |
22 | 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. |