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실측과 CFD해석을 이용한 완주 화암사의 미기후 특성에 대한 연구

A Study on the Characteristic Micro-Climate of Wanju Hwaamsa Temple using the Field Measurement and CFD Analysis

  • 조경숙 (전북대학교 대학원 건축공학과) ;
  • 백선영 (전북대학교 대학원 건축공학과) ;
  • 김윤상 (전북대학교 대학원 건축공학과) ;
  • 남해경 (전북대학교 건축공학과) ;
  • 김석희 (문화재청 문화재보존국 유형문화재과)
  • 투고 : 2015.10.01
  • 심사 : 2015.11.18
  • 발행 : 2015.12.31

초록

There have been carrying many studies to investigate the underlying causes of weathering damage to wood at Buddhist temple buildings, including all their wooden buildings. But the methods of their studies were not carried on the view point of the micro climatic changes such as temperature and humidity, which were the underlying causes of weathering damage. So this study aims to identify the characteristics of air flow inside Hwaamsa Temple site, which is built on a mountain, and whose buildings are different physical levels with their pillars of varying heights. To carry out this study the field measurement of factors (temperature, humidity, wind speed and direction) were measured and their data were analyzed with the computational fluid dynamics (CFD). Based on the results of measuring changes data in temperature and humidity as two inside locations and five locations outside of the temple. As the result the inside temperature and humidity in the Geungnakjeon was evenly distributed, whereas that of the outside was unevenly distributed depending on the location. To a great extent, the speed of wind affects humidity. In the case that the Myeongbujeon in the temple were demolished, there has been a 20-30% increase in the wind speed near the Geungnakjeon Such an increase in the wind speed is thought to affect factors such as the wooden material by stabilizing changes in humidity near the temple.

키워드

참고문헌

  1. Aan, E. Y., & Kim, J. W. (2012). Numerical analysis of optimum door frame for enhancing thermal efficiency. Journal Korean Multimedia Society. 15(5), 672-676. https://doi.org/10.9717/kmms.2012.15.5.672
  2. Sreshthaputra, A., Haberl, J., & Andrews, M. J. (2004). Improving building design and operation of Thai buddhist temple. Energy and Buildings. 36, 481-494. https://doi.org/10.1016/j.enbuild.2003.12.010
  3. Hur, N. K., Lee, M. S., & Yang, S. J. (2007). Numerical simulation of ventilation in the storage hall of tripitaka K orean at Haein Temple in case of building rearrangement. Korean Journal of Air-Conditioning and Refrigeration Engineering. 19(5), 379-385.
  4. Kong, S. H. (2002). Measurement of the dry bulb temperature, relative humidity and air velocity of traditional korea house's Anmadang in spring. Journal Korean Society of Living Environment System, 9(4), 285-289.
  5. Kim, J. W., & Aan, E. Y. (2012). Computational Analysis of air flow inside korean traditional house. Journal Korean Multimedia Society. 15(3), 380-387. https://doi.org/10.9717/kmms.2012.15.3.380
  6. Kim, T. J., & Park, J. S. (2010). Natural ventilation with traditional Korean opening in contemporary house. Building and Environment. 45, 51-57 https://doi.org/10.1016/j.buildenv.2009.05.016
  7. Lee, J. S., & Pae, M. H.(2004). Conservation condition of academic museum cultural properties and biological environmental investigation. Korean Antiquity.64, 111-131
  8. Lim, J. Y., Song, D. S., & Lee, S. H. (2007). A Study on flow for Haein temple with field measurement and nu merical simulation .Korean Institute of Architectural Susta inable Environment and Building Systems, 1(3), 8-13.
  9. Stream Version 9.0 (2010). Cradle co., Japan

피인용 문헌

  1. The study to environmental factors using microclimate survey of traditional wooden Silsang Temple in Korea vol.190, pp.11, 2018, https://doi.org/10.1007/s10661-018-7011-x