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Analysis of Heat Loss Due to Time Dependent Aging of Insulation Applied to Office Building

업무용 건축물에 적용된 단열재의 경년열화에 따른 열손실량 분석

  • 이도형 (한국전력공사 전력연구원) ;
  • 나환선 (한국전력공사 전력연구원)
  • Received : 2017.08.17
  • Accepted : 2017.10.30
  • Published : 2017.10.30

Abstract

In this study, the change of heat loss due to the degree of deterioration of the XPS insulation in KEPCO's office buildings is analyzed. The acceleration aging test of the XPS insulation was carried out according to the test method A of KS M ISO 11561: 2009. The performance of the insulation was analyzed by applying it to the three - dimensional steady state heat transfer analysis program. The acceleration aging test of the XPS insulation, show that the thermal resistance performance decreased by 1.44% at the A regional headquarters, 0.85% at the B regional headquarters, 6.41% at the C branch office, 7.76% at the D regional headquarters, 8.51% at the E branch office, and by 8.54% at the F branch office respectively. Using simulation, we determined that the thermal resistance value of E branch office decreased by 8.04%, while its heat loss increased by 8.52%. At A regional headquarters, the thermal resistance decreased by 1.38%, and the heat loss increased by 1.51%. At D regional headquarters, these value are 6.82% and 7.17%, respectively.

Keywords

References

  1. KS M ISO 11561 : 2009, Ageing of thermal insulation materials - Determination of the long-term change in thermal resistance of closed-cell plastics(accelerated laboratory test methods).
  2. KS A 0006 : 2014, Standard atmospheric conditions for testing.
  3. KS F 3808 : 2011, Cellular polystyrene(PS) for thermal insulation.
  4. KS L ISO 8301 : 2006, Thermal insulation - Determination of steady-state thermal resistance and related properties - Heat flow meter apparatus.
  5. KS L 9016 : 2010, Test methods for thermal transmission properties of thermal insulations.
  6. ASTM C518, Standard test method for steady-state thermal transmission properties by means of the heat flow meter apparatus.
  7. Lee, S. E., Kang, J. S., Jeong, Y. S., and Choi, H. J., An experimental study on thermal conductivity change of building insulation materials with environmental condition and long-time elapse, Journal of Architectural Institute of Korea, Vol 19, No. 12, pp. 235-241, 2003.
  8. Hong, J. K. and Son, J. Y., An experimental study on thermal conductivity of building insulation materials, Journal of Architectural Institute of Korea, Vol 29, No. 23, pp. 87-92, 1985.
  9. Lim, S. H., A study on the insulating performance of organic insulating materials for building construction under accelerated durability conditions, Korea National University of Transportation, Master thesis, 2015.
  10. Choi, H. J., Jeong, Y. S., Kim, G. W., Kang, J. S., and Lee, S. E., An experimental study on thermal conductivity change of building insulation materials with long-time elapse II, Journal of Architectural Institute of Korea, 2003.