Journal of the Korean Institute of Traditional Landscape Architecture (한국전통조경학회지)

Korean Institute of Traditional Landscape Architecture (한국전통조경학회)
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A Study on the Development Program of Building Integrated Vertical Greening System Based on Climate Design

기후디자인 기반 건축물통합형 입면녹화시스템 개발 방안에 관한 연구

  • Received : 2017.09.18
  • Accepted : 2017.09.29
  • Published : 2017.09.30
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Abstract

Construction and urban development projects that drove urbanization were perceived as a main culprit that disturbs environment and ecosystems, including urban heat island, air pollution and a decrease in species diversity in urban area, as they do not consider natural environment and adopt consistent development behaviors and rapidly degrade the ecology of development sites. In order to build a sustainable green wall system, design process is configured as follows based on basic technology development direction, climate environment elements, climate design technology elements suggested earlier. Each part of required technology element is codified systematically and a sound Korean-style green wall system design direction will be suggested.

도시화를 주도하는 건축, 도시개발 사업은 주변자연환경을 고려하지 않고 일관적인 개발행태로 인하여 기존 부지에 대한 생태성을 급진적으로 저하시켜 도시열섬화 현상, 대기오염, 도심 내 종 다양성 저감 등 환경 및 생태계를 교란하는 주요원인으로 인식되었다. 지속 가능한 시스템 중에서 도심 내 생태적 연결을 제공하는 건축물녹화는 기존의 건물을 지속 가능한 도시환경 시스템의 한 부분으로 전이시켜줄 수 있는 구체적 생태기술공법의 하나이다. 본연구에서는 체계적인 입면녹화 개발방안수립을 위해 기본기술개발방향, 기후환경인자, 기후디자인 기술요소, 소재 등을 고찰하였고 이에 준하여 입면녹화시스템 설계프로세스를 도식화하고 분석, 전략, 개발방안, 유형 설정의 순서로 건전한 한국형 입면녹화시스템 설계를 진행하였다. 국내 환경에 대응하는 지속가능한 입면녹화시스템 구축을 위해 식물학적, 시스템적 시스템 개발 및 발전방안 마련을 제시하고자 한다.

Keywords

References

  1. Berg, S. O.(1948). An application for some new techniques in the economic classification of land, Cornell University.
  2. Choi. J.J.(2001). A Study on the Climate Design Method for Energy Efficient Building Design, Department of Architecrure, Ewha Institute of Science and Technology.
  3. Kwang, J. B.(2004), A Study for the Feature of the Times of the Interior Landscape Architecture according to the State of the Introduction of Plants - Focusing on the Living Space in 1980s -, Journal of Korean Institute of Traditional Landscape Architecture Vol.2.
  4. Kim, D. Y. and Kim, S. A.(2014). An Integrated Design Process of Climate Adaptive Building Shells using Generative Algorithm, Architectural Institute of Korea Vol.30 No.3.
  5. Kim, S. B. and Sim, G. J.(2003). A Practical Strategy for the Use of the Flat Roof as a Resource for Greening of Daegu, Korea, Journal of Korean Institute of Traditional Landscape Architecture Vol.21 No.3.
  6. Kim, J. G. and Koh, G. H.(2013). A Study on the Characteristics of Friendly Building Techniques of Environment to Adapt to Climate, Journal of Korean Institute of Interior Design Vol.22 No.6.
  7. Kim H. S. eds.(2003). Development of Multi-functional Skins for Green Building, Korea Institute of Construction Technology.
  8. Kim, J. H. and Son, H. M.(2016). An Analysis of Energy Reduction Effects in Housing According to Green Roof, LHI journal of land, housing, and urban affairs, Vol.7 No.4
  9. Lee, A. Y.(2011). Study on the Passive House Design Direction Suitable for Korean Climate and Residential Environment, The Korean Solar Energy Society Vol.10 No.2.
  10. Lee, J. H.(2015). A Study on the Green Infrastructure Plan for Sustainable City, Korean journal of environment and ecology.
  11. Moon, S. W.(2016). Study on the Passive House Design Direction Suitable for Korean Climate and Residential Environment, Journal Korea Society of Visual Design Forum Vol.52.
  12. Shin, Y. I.(2010). A study of Environment Factors and Envelope Design of Sustainable Building, The Regional Association of Architectural Institute of Korea Vol.2010 No.1.