한국주거학회논문집 (Journal of the Korean housing association)

  • 제23권1호
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  • Pages.19-26
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  • 2012
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  • 2234-3571(pISSN)
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  • 2234-2257(eISSN)
한국주거학회 (The Korean Housing Association)
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담장허물기로 인한 주택지 외부공간의 열환경 평가

Evaluation of Thermal Environment of External Space following the Fence Demolition Campaign in Detached Housing Area

  • 투고 : 2011.11.17
  • 심사 : 2012.01.17
  • 발행 : 2012.02.25
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초록

This study examines how fence demolition may change the thermal environments of external spaces of houses and suggests what factors need to be considered when a fence is demolished. The results of the research are summarized as follows. In terms of the surface temperature, there was no significant difference in all time plots after the removal of all materials. However, applying greening methods (changing the surface materials, planting trees, and building a green roof following fence demolition) could lower the surface temperatures, calling for proper plans for various greening methods. The MRT results indicates that walls block solar radiation and provide shade, reducing radiant heat from roads and surrounding structures during the daytime when solar radiation directly effects surface temperatures. Also, the application of greening methods such as planting vegetation and trees could have shading and evapotranspiration effects, leading to a lower temperature distribution. The HIP results were similar to the MRT results. They indicated that walls block solar radiation within the residential sections and provide shade, resulting in a lower temperature distribution during the daytime. However, areas where greening methods such as a green roof or tree planting were applied showed $1{\sim}2^{\circ}C$ difference in temperature distribution.

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참고문헌

  1. Baek, S., Kim, Y., & Lee, J. (2010). Analyzing the effects of the wall removal project on the sense of community and safety in residential area. Journal of the Korean Regional Development Association, 22(1), 181-199.
  2. Choi, J. (2005). A study on affecting factors of the opening of fence movement. Journal of Korea Planners Association, 40(7), 25-41.
  3. Jang, E. (2005). A numerical simulation of heat flow field for heat island effect analysis to air pollutants dispersion in apartment complex. Journal of the Environmental Sciences, 14(6), 577-582. https://doi.org/10.5322/JES.2005.14.6.577
  4. Jeon, M. et al. (2010). Evaluation of the thermal environment and comfort in apartment complex using unsteady-state CFD simulation. Journal of the KIEAE, 10(4), 67-73.
  5. Jun, H. (2010). A study on urban environmnet change and improvement method of the fence demolition campaign in detached housing area. Unpublished mater's thesis. University of Seoul, Korea.
  6. Kim, S. (2004). An evaluation of the collaborative urban environment improvement initiative in South Korea. Journal of the Environmental Sciences, 13(10), 863-870. https://doi.org/10.5322/JES.2004.13.10.863
  7. Kwon, Y. (2003). A study on civil attitutes on fence removal. Unpublished mater's thesis. University of Keimyung, Daegu.
  8. Lee, J. (2006). The influence of demolish a wall at houses upon the inhabitants' satisfaction. Unpublished mater's thesis. University of Chungju, Chungju.
  9. Noh, Y. (2007). A study on the post evaluation of the residents in the walless housing. Unpublished mater's thesis. University of Hanyang, Seoul.
  10. Oh, K., Seo, A., & Jung, S. (2009). Planning apartment complexes to enhance thermal environment. The Korea Society For Environmental Restoration And Revegetation Technology, 12(2), 83-94.
  11. Park, E., & Kang, E. (2007). A research on analysis of sunlight environment impact of certified green building apartment complexes. Journal of Architectural Institute of Korea, 23(9), 3-13.
  12. Park, K., & Park, M. (2010). The policy effects of crime prevention through environmental design in local government. The Korean Association for Local Goverment Studies, 14(1), 203-223.
  13. Ryu, J., Kim, J., Jung, E., & Kim, S. (2004). A study on the analysis of environmental-friendly planning characteristics of apartment housing complex. Journal of the Korean Housing Association, 15(5), 97-105.
  14. Ryu, J. et al. (2011). Study on evaluation of thermal environment following alleviation of limit on number of floors of apartment complex. Preceeding of REAL CORP 2011 (p. 923-933). Essen, Germany.
  15. Ryu, J., Jung, E., & Hoyano, A. (2011). A study on evaluation of thermal environment following the alleviation of the limit on number of floors or apartment complex. Journal of the Korean Housing Association, 22(3), 93-100. https://doi.org/10.6107/JKHA.2011.22.3.093
  16. Son, S. (2001). A study on the implementation strategy of community development wall removal campaign in Daegu. Journal of Korean-International Society of Community Development, 26(1), 7-27.
  17. Yoon, S., & Jung, S. (2009). Predictive evaluation of outdoor thermal environment in summer of apartment housing according to building types and site planning types. Journal of Architectural Institute of Korea, 25(9), 321-328.
  18. Yoon, Y. et al. (2008). Factor analysis of the relation between land cover ratio of green spaces and temperature. Journal of the Environmental Sciences, 17(5), 485-491. https://doi.org/10.5322/JES.2008.17.5.485
  19. Hoyano, A., Asawa, T., & Nakaohkubo, K. (2004). Environmental design tool by combining outdoor thermal environment simulation with 3D-CAD. Journal of Architecture and Building Science, 20, 195-199.
  20. Givoni, B. et al. (2003). Outdoor comfort research issue. Energy & Buildings, 35(1), 77-86. https://doi.org/10.1016/S0378-7788(02)00082-8
  21. Mayer, H. et al. (2008). Human thermal comfort in summer within an urban street canyon in Central Europe. Meteorologische Zeitschrift, 17(3), 241-250. https://doi.org/10.1127/0941-2948/2008/0285
  22. Nikolopoulou, M., & Lykoudis, S. (2007) Use of outdoor spaces and microclimate in a mediterranean urban area. Building & Environment, 42(10), 3691-3707. https://doi.org/10.1016/j.buildenv.2006.09.008
  23. Nikolopoulou, M., & Steemers, K. (2003). Thermal comfort and psychological adaptation as a guide for designing urban spaces, Energy & Buildings, 35(1), 95-101. https://doi.org/10.1016/S0378-7788(02)00084-1
  24. Oliveira, s., & Andrade, H. (2007). An initial assessment of the bioclimatic comfort in an outdoor public space in Lisbon. Int J of Biometeorol, 52(1), 69-84. https://doi.org/10.1007/s00484-007-0100-0
  25. Sato, R., Hoyano, A., Murakami, A., Asawa, T., & Handa, M. (2004). Evaluation of thermal control effect of vegetation in substantial urban area using numerical simulation. 4. Architectural Institute of Japan, 723-724.