A Study of the Thermal Characteristics of Flooring Materials, Wood, Rock, Aluminum through Observation of its Radiant Environment in the Summer

하절기 복사환경 관측을 통한 석재, 목재, 알루미늄 바닥재의 열특성 평가

  • Choi, Dong-Ho (Dept. of Architecture, Catholic University of Daegu) ;
  • Lee, Bu-Yong (Dept. of Environmental Science, Catholic University of Daegu)
  • 최동호 (대구가톨릭대학교 건축학과) ;
  • 이부용 (대구가톨릭대학교 환경과학과)
  • Published : 2008.06.30

Abstract

In this study, the experiment of the measuring of four different types of flooring materials' thermal characteristics was conducted and examined during the summer. The experimental materials were arranged on the existing slab of the roof, and then its thermal characteristics were examined from the point of view of thermal radiation analysis. The aim of this study is ultimately to draw the fundamental data for improvements in a building's thermal function and reduce the urban heat island phenomena through optimizing the thermal characteristics of the surface covering materials of a building. The results from this study are as follows; 1) Each experimental material's albedo was calculated as 0.83 on the aluminum panel, 0.40 on the rock block, 0.37 on the wood deck and 0.21 on the concrete. It shows that the concrete material, which has the lowest short wave reflective rate, absorbed the most radiation energy and the aluminium panel has absorbed the lowest radiation energy. 2) From the each experimental object's value of the long wave radiation, the concrete material measured the highest, at $628W/m^2$, and the aluminium panel measured the lowest at $412W/m^2$. Therefore, it verifies that the experimental objects' own radiation rate determines the amount of the long wave radiation. 3) The degree of energy absorbency of a building's surface covering materials is greatly influenced by its own albedo and radiation rate, Therefore, it needs to be considered for the improvements in a building's thermal function and reducing the urban heat island phenomena. 4) According to the evaluation result of the each experimental object's overall heat transmission screening function on the roof of a building, the wooden deck is proven to be an excellent material for excluding the outside temperature differences effectively with its characteristic of low heat capacity and conduction. Also its surface temperature on the roof slab and the temperature difference during the day were both measured at low.

Keywords

References

  1. International Workshop on Countermeasures to Urban Heat Islands, MLIT & IE A, Tokyo, Japan, 2006.08.03-04
  2. 森山正和, ヒートアイランドの對策と技術, 學藝出版社, 2004.08
  3. 최동호, 이부용, "하절기 복사환경 관측을 통한 수목과 일사차폐 막 구조물의 자연 냉각효과", 한국태양에너지학회 논문집, Vol.27, No.4, pp.137-146, 2007.12
  4. 甲藤好郞, 傳熱槪論, 養賢堂, 1989
  5. FLIR Systems, ThermaCAM S60 사용자매뉴얼, 18.1장, 2003.04
  6. http://www.handsel.co.kr/