Evaluation of Indoor Thermal Environment According to Air-Barrier Air Conditioning System in Perimeter Zone

페리미터존의 에어배리어 공조방식에 따른 실내 열환경 평가

  • Park Byung-Yoon (Department of Architecture, Suwon Science College) ;
  • Ham Heung-Don (Department of Indoor Environment Design, Daewon Science College) ;
  • Sohn Jang-Yeul (College of Architecture, Hanyang University)
  • 박병윤 (수원과학대학 건축과) ;
  • 함흥돈 (대원과학대학 실내환경디자인) ;
  • 손장열 (한양대학교 건축대학)
  • Published : 2005.04.01

Abstract

For the purpose of investigating the effective removal of heating/cooling load from light-weighted building envelope, two air-conditioning systems, conventional parameter air-conditioning system and air-barrier system, are evaluated and compared by both experiment and simulation with six different cases during heating and cooling season. In addition, the characteristics of window-side building thermal load are assessed by varying supply air velocity in order to seek the optimal system operation condition. The results are as follows. 1) Air-barrier system is more effective to remove heating/cooling load at perimeter zone than conventional parameter air-conditioning system. Moreover, the better effectiveness appears during cooling season than during heating season. 2) The experiment during cooling season provides that indoor temperature of air-barrier system shows $1^{\circ}C$ less than that of the conventional system with similar outdoor air temperature profile, and indoor temperature distribution is more uniform throughout the experimented model space. It concludes that air-barrier system can achieve energy saving comparing to the conventional system. 3) The capturing efficiency of air-barrier system is 0.47 on heating season and 0.2 on cooling season with the same supply air volume. It results that the system performs effectively to remove building thermal load, moreover demonstrates high efficiency during cooling season. 4) The simulation results provide that capturing efficiency to evaluate the effective removal of building load from perimeter zone shows high value when supply air velocity is 1 m/s.

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References

  1. Sohn, J. Y., 2000, A study place of perimeter zone for optimum air-conditioning system, The 5th International Congress on Physiological Anthropology, pp.217-220
  2. Matunawa, K., 1996, Development and application of an underfloor air-conditioning system with improved outlets of a 'SMART' building in Tokyo, ASHRAE Transactions, pp.887-990