This study evaporative cooling system a heat wave climate change and reduction of the inside and outside thermal environment change research. Measurement items included micro meteorological phenomena and measured comfort indices. A micro meteorograph of temperature, relative humidity, surface temperature, and the comfort indices of WBGT, UTCI, and PMV were measured. The difference in inside and outside temperatures were compared for different land types, with the largest difference found in Type A (4.81℃), followed by Type B (4.40℃ ) and Type C (3.12℃). Relative humidity was about 10.43% higher inside due to water injection by the evaporative cooling system. Surface temperature was inside about 6.60℃ higher than the outside all types. WBGT were Type A (3.50℃) > Type B (2.71℃) > Type C (1.88℃). UTCI was low heat stress inside than outside all types. PMV was analysed Type C for inside predicted percentage of dissatisfied 75%, other types was percentage of dissatisfied 100% by inside and outside. Correlation analysis between land cover type and temperature, surface temperature, pmv, utci. T-test analysed inside and outside temperature difference was significant in all types of land.

Abstract
 1. 서 론
 2. 재료 및 방법
  2.1. 연구대상지
  2.2. 조사분석방법
 3. 결과 및 고찰
  3.1. 토지피복유형별 기상현황
  3.2. 토지피복유형별 증발냉각시스템 내·외부 미기상특성
  3.3. 토지피복유형별 증발냉각시스템 내·외부 열쾌적지표특성
  3.4. 통계분석
 4. 결 론
 감사의 글
 REFERENCES

• 김정호(건국대학교 녹색기술융합학과, Department of Green Technology Convergence, Konkuk University) | Jeong-Ho Kim
• 김학기(건국대학교 녹색기술융합학과, Department of Green Technology Convergence, Konkuk University) | Hak-Gi Kim
• 윤용한(건국대학교 녹색기술융합학과, Department of Green Technology Convergence, Konkuk University) | Yong-Han Yoon
• 권기욱(바이오환경기술연구센터, Environmental Biotechnology Research Center) | Ki-Uk Kwon Corresponding author