Journal of the Korean housing association (한국주거학회논문집)

The Korean Housing Association (한국주거학회)
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Evaluation on Cooling Performance of Thermally Activated Building System by Insulation and Shading Conditions in Apartments

공동주택의 단열 및 차양에 따른 구체축열시스템 냉방성능 평가

  • Received : 2012.02.01
  • Accepted : 2012.04.10
  • Published : 2012.04.25
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Abstract

Thermally Activated Building System(TABS) is a radiant heating and cooling system which uses structures as thermal storage by embedding pipes in a concrete slab. Using TABS as the cooling system in residential buildings can reduce energy consumption and peak loads. But the ratio of cooling loads handled by TABS is low in the residential buildings which are significantly influenced by outside condition because condensation and over-cooling may occur. However, recent interest on energy-saving buildings is increasing and new residential buildings are expected to be less influenced by outside with high-insulation and shading. In such residential buildings, the heating and cooling loads and the range of load changes reduce. So the ratio of loads handled by TABS can increase. Therefore, this research investigates the cooling performance and energy performance of TABS in the residential buildings with less influence from outside using the simulation.

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References

  1. 국토해양부 (2010). 건축물의 에너지절약설계기준.
  2. Babiak, J., Olesen, B., W. & Petras, D. (2007). Low temperature heating and high temperature cooling. Rehva.
  3. Cheong, C., Kim, T., & Leigh, S. (2008). Expectation about heating and cooling load reduction in apartment by using the window with lower U-value and the external shading device. Proceeding of Spring Conference of the Korean Institute of Architectural Sustainable Environment and Building System 2008, 65-70.
  4. Chung, W. et al. (2011). Feasibility of a thermally activated building system in residential buildings. ISES Solar World Congress 2011, Kassel.
  5. EN 15377-1: Heating system in buildings - Design of embedded water based surface heating and cooling system - Part 1: Determination of the design heating and cooling capacity. (2007).
  6. Gwerder, M., Lehmann, B., Todtli, J., Dorer, V., & Renggli, F. (2008). Control of thermally-activated building system (TABS). Applied Energy, 85(7), 565-581. https://doi.org/10.1016/j.apenergy.2007.08.001
  7. Kim, J., Lee, T., Cho, K., & Kim, J. (2010). A case study on the domestic passive house through application of the Germany passive house standards. Proceeding of Spring Conference of the Korean Institute of Ecological Architecture and Environment 2010, 19-22.
  8. Ministry of Commerce, Industry and Energy (2005). A study on the development of the insulation and design criteria for low energy housing complex.
  9. Olesen, B. W., Sommer, K., & Duchting, B. (2002). Control of slab heating and cooling systems studied by dynamic computer simulations.
  10. Park, S. et al. (2011). Operation mode of a thermally activated building system according to the starting time and the operating hours in residential building. ISES Solar World Congress 2011, Kassel.
  11. Park, S., Kim, I., Koo, S., Yeo, M., & Kim, K. (2010). The effect on the heat output by combination of design factors of thermally activated building system(TABS). Journal of the Korean Institute of Architectural Sustainable Environment and Building System, 4(3), 180-186.
  12. Yoo, M. et al. (2011). Evaluation on energy performance of thermally activated building system (TABS) in residential building. Proceeding of Autumn Annual Conference of the Architectural Institute of Korea 2011, Planning & Design, 399-400
  13. Passive House Institute Korea. http://www.phiko.kr/