A system coupled the prognostic WRF mesoscale model and CALMET diagnostic model has been employed for predicting high-resolution wind field over complex coastal area. WRF has three nested grids down to 1km during two days from 24 August 2007 to 26 August 2007. CALMET simulation is performed using both initial meteorological field from WRF coarsest results and surface boundary condition that is Shuttle Radar Topography Mission (SRTM) 90m topography and Environmental Geographic Information System (EGIS) 30m landuse during same periods above. Four Automatic Weather System (AWS) and a Sonic Detection And Ranging (SODAR) are used to verify modeled wind fields. Horizontal wind fields in CM_100m is not only more complex but better simulated than WRF_1km results at Backwoon and Geumho in which there are shown stagnation, blocking effects and orographically driven winds. Being increased in horizontal grid spacing, CM_100m is well matched with vertically wind profile compared SODAR. This also mentions the importance of high-resolution surface boundary conditions when horizontal grid spacing is increased to produce detailed wind fields over complex terrain features.

• 이화운(부산대학교 지구환경시스템학부) | Hwa Woon Lee
• 김동혁(부산대학교 지구환경시스템학부) | Dong Hyeok Kim Corresponding Author
• 이순환(부산대학교 환경문제연구소) | Soon Hwan Lee
• 김민정(부산대학교 지구환경시스템학부) | Min Jung Kim
• 박순영(부산대학교 지구환경시스템학부) | Soon Young Park
• 김현구(한국에너지기술연구원) | Hyun Goo Kim