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The exploration of environmentally friendly energy resources is one of the major challenges facing society today. The last decade has witnessed rapid developments in renewable energy engineering. Wind and solar power plants with increasing sizes and technological sophistication have been built. Amid this development, meteorological modeling plays an increasingly important role, not only in selecting the sites of wind and solar power plants but also in assessing the environmental impacts of those plants. The permanent land-use changes as a result of the construction of wind farms can potentially alter local climate (Keith et al. [1], Roy and Traiteur [2]). The reduction of wind speed by the presence of wind turbines could affect the preconstruction estimate of wind power potential (e.g., Adams and Keith [3]). Future anthropogenic greenhouse gas emissions are expected to induce changes in the surface wind and cloudiness, which would affect the power production of wind and solar power plants. To quantify these two-way relations between renewable energy production and regional climate change, mesoscale meteorological modeling remains one of the most efficient approaches for research and applications.
- Huang, Huei-Ping (Author)
- Hedquist, Brent C. (Author)
- Lee, T.-W. (Author)
- Myint, Soe (Author)
- Ira A. Fulton Schools of Engineering (Contributor)
Huang, H., Hedquist, B. C., Lee, T., & Myint, S. W. (2014). Climate Modeling for Renewable Energy Applications. Advances in Meteorology, 2014, 1-2. doi:10.1155/2014/354862
- 2017-07-11 01:30:32
- 2021-10-26 01:42:25
- 3 years 1 month ago