DOI QR코드

DOI QR Code

A Study on Evaluation of Thermal Environment Following the Alleviation of the Limit on Number of Floors of Apartment Complexes

공동주택 건축물 층수완화에 따른 열환경 평가에 관한 연구

  • Received : 2011.02.23
  • Accepted : 2011.04.22
  • Published : 2011.06.25

Abstract

The objective of this study is to provide basic objective data which can be utilized as an adjustment criterion for the alleviation of the limit on the number of floors of buildings by quantitatively evaluates the effect of the alleviation of the limit on the number of floors of buildings in apartment complexes on thermal environment of apartment complexes using data obtained from apartments in a class 2 general residential area. In this study, we carried out a thermal environment analysis utilizing the simulation of a virtual object area. The result is summarized as follows: The result of analyzing the entire surface temperature showed an equal decrease of surface temperature due to shadow in all scenarios and high floors showed a tendency of low surface temperature during daytime as the rate of shadow the high floors increase. This influences not only the surface temperature but also HIP and is judged to greatly contribute to the alleviation of the heat island effect. Also, the reason why HIP at high floors shows high values before sunrise and after sunset is thought to be because the concrete wall of the building maintains a high temperature during nighttime by absorbing and storing sunlight during daytime instead of reflecting it since it has low reflectance.

Keywords

References

  1. 박은태.강병근 (2007). 친환경 건축물 인증 아파트 단지 일조환경분석에 관한 연구. 대한건축학회논문집, 23(9), 3-13.
  2. 오규식, 서안선, 정승현 (2009). 열환경 향상을 위한 아파트 주동배치계획. 한국환경복원기술학회지, 12(2), 83-94.
  3. 윤성환, 정선영 (2009). 공동주택의 주동형상 및 배치유형에 따른 여름철 옥외 열환경 예측평가. 대한건축학회논문집, 25(9), 321-328.
  4. 윤성환, 정선영 (2008). 3차원 전표면온도 수치시뮬레이션에 의한 판상형 및 탑상형 아파트의 여름철 옥외 열환경평가. 대한건축학회논문집, 24(10), 259-266.
  5. 이성열 (2007). 도시지역 토지유형별 열환경 특성 분석에 관한 연구. 석사학위논문, 협성대학교, 화성.
  6. 장은숙 (2005). 아파트 단지내의 열섬효과가 대기오염물질 확산에 미치는 영향 해석을 위한 열유동장 수치모의. 한국환경과학회지, 6, 577-582.
  7. 전미영, 이승재, 김지영, 이승복, 김태연 (2010). Unsteadystate CFD 시뮬레이션을 이용한 여름철 공동주택 외부공간의 온열환경 및 쾌적성 평가. 한국생태건축학회논문집, 10(4), 67-73.
  8. 梅干野晃, 淺輪貴史, 中大窪千晶 (2004). 3D-CADと屋外 熱環境シミュレ一ションを一体化した環境設計ツ一ル, 日本建築學會論文集, 20, 195-198.
  9. 高橋晃一朗 (2008). 建築外部空間における微氣候予測のための熱收支と氣流シミュレ一ションの連成手法に關する硏究. 碩士學位請求論文, 東京工業大學, 東京.
  10. 山村眞司, 梅干野晃, 淺輪貴史 (2002). 建築外部空間のデザイン 設計支援を目的として熱放射環境の予測手法の開發, 日本建築學會論文集, 554, 85-92.