Korean Journal of Agricultural Science (농업과학연구)

Institute of Agricultural Science, CNU (충남대학교 농업과학연구소)
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Heat transfer of green timber wall panels

그린팀버월 패널의 열전달 특성

  • Kim, Yun-Hui (Dept. of Bio-based Materials, Chungnam National University) ;
  • Jang, Sang-Sik (Dept. of Bio-based Materials, Chungnam National University) ;
  • Shin, Il-Joong (Dept. of Bio-based Materials, Chungnam National University)
  • 김윤희 (충남대학교 환경소재공학과) ;
  • 장상식 (충남대학교 환경소재공학과) ;
  • 신일중 (충남대학교 환경소재공학과)
  • Received : 2011.01.07
  • Accepted : 2011.03.09
  • Published : 2011.03.30
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Abstract

20% of total energy use to sustain temperature of building inside. In this reasons, researchers effort to improve the thermal insulation capacity with new wall system. Using appropriate materials and consisting new wall system should considered in energy saving design. OSB(Oriented strand board), Larch lining board used to consist wall system. $2{\sim}6$ Larch lining board has tongue & groove shape for preventing moisture. Comparing with gypsum board and green timber lining board as interior sheathing material, temperature difference of Green timber wall system was bigger than temperature difference of gypsum board wall system. This aspects indicate that Green timber wall system was revealed higher thermal insulation property than gypsum board wall system. Gypsum board portion transfer heat easily because temperature difference gradient of gypsum board wall system was smaller than OSB wall system. Total temperature variation shape of G-4-S and G-6-S show similar model but, temperature variation shape in green timber wall portion assume a new aspect. The purpose of this study was that possibility of thermal insulation variation and new composition of wall system identify to improve thermal insulation performance. In the temperature case, this study shows possibility of improving thermal insulation performance. Humidity, sunshine and wind etc. should considered to determine building adiabatic properties.

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References

  1. Kawasaki T, Kawai S. 2006. Thermal insulation properties of wood-based sandwich panel for use as structural insulated walls and floors. J. Wood Sci. 52: 75-83. https://doi.org/10.1007/s10086-005-0720-0
  2. Shim KB, Lee JJ. 1995. Finite element analysis of adiabatic properties for the wall system in wood frame house. Kor. Wood Sci. 23(3): 48-57. [in Korean]
  3. Holman JP. 1990. Heat Transfer. 2nd ed. McGraw Hill.
  4. Kim MH. 1991. A study of the adiabatic materials and adiabatic method. Review of Architecture & Building Sci. 35(5): 29-35. [in Korean]
  5. Kim SW. 1992. Inside and outside insulation for building. Review of Architecture & Building Sci. 36(6): 28-31. [in Korean]
  6. KS. 2008. Building components and building elements -Thermal resistance and thermal transmittance - Calculation method. In KS L ISO 6946:2008. [in Korean]
  7. KS. 2010. Test methods for thermal transmission properties of thermal insulations. In KS L 9016:2010. [in Korean]
  8. Larsen SF, Filippin C, Lesino G. 2009. Thermal behavior of building walls in summer : Comparison of available analytical methods and experimental results for a case study. Building Simulation 2(1): 3-18. https://doi.org/10.1007/S12273-009-9103-6