Journal of Energy Engineering (에너지공학)

The Korean Society for Energy (한국에너지학회)
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Analysis on Energy Demand Resulting From the Change in Window Area & Installation of Interior Exterior Blinds

기존 노후건축물의 최적 리모델링 개선안 연구

  • Kim, Dae-Won (Graduate School of Energy Environment, Seoul National University of Science and Technology) ;
  • Chung, Kwang-Seop (Seoul National University of Science and Technology) ;
  • Kim, Young-Il (Seoul National University of Science and Technology) ;
  • Nam, Ariasae (Parsons Brinckerhoff Co., Ltd.) ;
  • Oh, Se Min (Korea Infrastructure safety corporation)
  • Received : 2014.02.28
  • Accepted : 2014.06.13
  • Published : 2014.06.30
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Abstract

The energy loss can be divided into the loss caused by heat transfer and the loss caused by air flow. Heat transfer is the loss resulting from the heat transmittance of external wall, roof, and floor, and represents one of the most vulnerable elements of existing buildings. To prevent such loss, it is necessary to increase the mean heat transmittance of entire external wall, including the window, to a level above the standard regional value and ensure the air-tightness of window. The old buildings have the structure which is prone to the loss of greater air flow due to the air infiltration through the exit/entrance door upward along the stairway by the stack effect and simultaneous suction of air from each floor, and becomes even vulnerable to the loss of heat insulation for each floor, although the external wall and windows are the most vulnerable parts. The improvement plans for each floor need to be submitted in tandem with the diagnosis of whole building, regarding the diagnosis plan and energy improvement measures based on the survey of site, rather than adhering to the misconception that the replacement of window alone will result in energy-savings.

에너지손실을 분석해 보면 열전달에 의한 손실과 공기유동에 의한 손실로 구분할수 있다. 열전달은 외벽, 지붕, 바닥의 열관류율에 의한 손실로 기존건축물의 가장 취약한 부분의 한 요소이다. 이런 손실을 방지 하려면 창을 포함한 외벽 전체의 평균 열관류율을 지역 기준값 이상으로 올리고 창의 기밀성을 확보함에 따라 방지 할수 있다. 노후건축물의 가장 취약한 부분이 외벽과 창호 이지만 출입문을 통한 침기량은 연돌효과에 의해 층계단을 타고 올라감과 동시에 각층의 공기를 흡입하여 더큰 유동을 잃으켜 층의 단열성 까지 취약하게 만드는 구조로 되어 있다. 현장 조사를 통한 진단과 에너지 개선처방이 제시될 때 반드시 건물전체에 대한 진단과 각층 부분에 대한 개선안이 함께 제출되어 단순히 창 교체만 하면 에너지절감을 이룰수 있다는 착각에서 벗어나야 할 것이다.

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References

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