Effect of Thermal Environment by Green Roof and Land Cover Change in Detached Housing Area

옥상녹화 및 토양피복 변화가 단독주택지 외부 열환경에 미치는 영향 분석

Used as foundation resources for environment improvement and preservation of single-housing residential area by practicing classification of biotope with the concept of ecological area rate applied and performing urban thermal environment prediction simulation. Biotope is classified as seven types according to classification of biotope which is carried out with the concept of ecological area rate applied. The classification is listed below in descending order: building biotope(48.16%), impervious pavement biotope(39.75%), greenspace biotope(6.23%), crack permeable pavement biotope(3.26%), whole surface permeable pavement biotope(2.51%), parts permeable pavement biotope(0.04%). As a result of analysing prediction of variation and characteristics of thermal environment of single-housing residential area, land surface temperature per types of biotope are evaluated as listed below in descending temperature order: impervious pavement biotope > building biotope > greenspace biotope > permeable pavement biotope. In case 2 where vegetated roof hypothetically covers 100% of the roof area, temperature is predicted to be $33.58^{\circ}C$ Max, $23.85^{\circ}C$ Min, and $27.74^{\circ}C$ Avg. which is Approximately $5.19^{\circ}C$ lower than a non-vegetated roof. Average outdoor temperature for case 2 is studied to be $0.18^{\circ}C$ lower than case 1.

단독주택지의 도시환경보전 및 개선을 위해 서울시 강남구 수서동 일원의 단독주택지 밀집지역을 대상으로 생태 면적률 개념을 적용한 비오톱 유형화와 도시열환경 예측 시뮬레이션을 실시하였다. 생태면적률 개념을 적용하여 비오톱 유형 분류 결과 총 7개 유형으로 구분되었고 옥상녹화 미적용 건폐지비오톱(48.16%) > 불투수비건폐포장비오톱(39.75%) > 전면투수녹지비오톱(6.23%) > 틈새투수비건폐포장비오톱(3.26%) > 전면투수비건폐포장지비오톱(2.51%) > 부분투수비건폐포장지비오톱(0.04%) 순이었다. 단독주택지 외부 열환경 특성 및 변화 예측을 실시한 결과, 비오톱 유형별 지표면 온도값은 불투수비건폐포장지비오톱 > 옥상녹화미적용건폐지비오톱 > 전면투수녹지비오톱 > 투수포장지비오톱이 순이었다. 옥상녹화 100% 적용을 가정한 case 2의 경우 최대 $33.58^{\circ}C$, 최소 $23.85^{\circ}C$였고, 평균 $27.74^{\circ}C$로서 옥상녹화 전에 비해 약 $5.19^{\circ}C$ 감소한 것으로 예측되었다. 평균 외기온도는 case 2가 case 1보다 약 $0.18^{\circ}C$ 낮게 분석되었다.