KIEAE Journal

Korea Institute of Ecological Architecture and Environment (한국생태환경건축학회)
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Research of the Development of a Height-adjustable light-shelf based on an Open and Closed Concept - Focusing on the light-shelf Performance Evaluation Depending on the External Illumination-

개폐 개념의 높이 조절이 가능한 광선반 개발 연구 - 외부조도에 따른 광선반 성능평가 중심으로

  • Kim, Surin (Dept. of Architectural Design, Graduate School of Techno Design, Kookmin University) ;
  • Lee, Heangwoo (Dept. of Architectural Design, Graduate School of Techno Design, Kookmin University) ;
  • Song, Seonkjae (Dept. of Architectural Design, Graduate School of Techno Design, Kookmin University) ;
  • Kim, Yongseong (Dept. of Architectural Design, Graduate School of Techno Design, Kookmin University)
  • Received : 2017.03.22
  • Accepted : 2017.04.15
  • Published : 2017.06.30
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Abstract

Purpose: With the increase in the energy consumption in the building sector, many studies have recently been conducted to address this issue. Due to its efficiency, diverse studies on a light-shelf, which is a natural lighting system, are in progress. However, there has been no research on the external illumination that determines the performance of a light-shelf. Therefore, the present study aimed to prepare the external illumination standard for securing the lighting performance of a light-shelf through the light-shelf performance evaluation based on a 1:1 scale testbed, and to suggest a height-adjustable light-shelf based on an open and closed concept for the case in which the lighting performance of the light-shelf significantly deteriorates, by collecting the external illumination. Method: In this study, a 1:1 scale testbed was established for performance evaluation, and the external illumination standard for securing the performance of the light-shelf was prepared by comparing the lighting performance of the light-shelf depending on the open and closed condition of the light-shelf and the external illumination. Result: 1) In this study, a light-shelf that can be opened or closed depending on the external illumination was suggested. As a result, the prospect right can be secured by creating the condition where there is no light-shelf installation by moving the light-shelf to the top of the window when the lighting performance is not secured. 2) In the summer solstice, the external illuminations appropriate for lighting energy reduction were more than 75,000 lx and 60,000 lx for the light-shelf width of 0.3 m and 0.6 m, respectively. 3) In the intermediate period, the external illumination appropriate for lighting energy reduction was 60,000 lx. In the winter solstice, making the condition where there is no light-shelf installation by closing the light-shelf would be appropriate. 4) Based on the aforementioned results, the external illumination standard for the opening and closing of the height-adjustable light-shelf based on an open and closed concept suggested in this study was 60,000 lx, and the light-shelf with a width of 0.6 m would be advantageous for lighting energy reduction.

Keywords

References

  1. Department of Energy, "2011 Buildings Energy Data Book", 2011
  2. 조일식, 김기세, 윤종호, 이진숙, "Lightscape를 이용한 광선반의 주광 성능 해석 및 평가", 한국태양에너지학회 춘계학술발표회, 2001 // (Cho Ilsik, Kim, Yoon Jongho, Analysis and estimate the perfomance of lightshelf system using lightscape. The Korean Solar Energy Society, 2001.05)
  3. 문기훈, 김정태, "Lightscape를 이용한 광선반의 창호시스템의 채광성능평가", 한국생태환경건축학회논문집, 제4권 제4호, 2004 // (Moon, Kihoon, Kim, Jeong Tai, Daylighting Performance Evaluation of Lightshelf Window System by Lightscape. Korea Institute of Ecological Architecture and Environment, Vol.4, No.4, 2004.12)
  4. 김정태, 김기철, 김곤, "Mock-up model을 이용한 경사형광선반 채광시스템의 개발 및 채광성능 평가에 관한 연구", 한국태양에너지학회 , 제 24권 제 2호, 2004 // (Kim, Jeongtai, Kim, Kicheol, Kim, Gon, Development and Performance Evaluation of a Sloped Lightshelf Daylighting System, Development and Performance Evaluation of a Sloped Lightshelf Daylighting System, Vol.24, No.2, 2004)
  5. 김봉균, 김정태, "광선반 유형에 따른 실내 채광특성에 관한 축소모형 실험적 연구", 한국생태환경건축학회 학술발표대회 논문집 , 2005 // (Kim, Bongkyun, Kim, Jeong Tai, Scale Model Experiment for Daylighting Performance by Lightshelf Types. Korea Institute of Ecological Architecture and Environment, 2005.11)
  6. 장준호, 박병철, 최안섭, "광이중 광선반을 이용한 사무공간의 자연채광 성능평가에 관한 연구 ", 한국조명전기설비학회 추계 학술발표대회논문집 , 2006 // (Chang, Junho, Park, Byoungchul, Choi, Anseop, A Study on the Daylighting Performance in the Office Space with Double-lightshelf. Korea Institute of Ecological Architecture and Environment, 2006.11)
  7. 정유근, "창호일체형 광선반 시스템 채광성능 평가", 한국생태환경건축학회논문집, 제7권 제5호, 2007 // (Jung, Yugeun, Daylighting Performance Evaluation of window Integrated Light shelf System. Journal of the Korean Institute of Educational Architecture and Environment, Vol.7, No.5, 2013.03)
  8. 김동수, 윤종호, 신우철, 이광호, "광선추적기법을 활용한 곡면형 광선반시스템 설계 및 채광성능 평가", 한국태양에너지학회논문집,제3권 제4호, 20011 // (Kim Dongsu, Yoon, Jongho, Shin, Woochul, Lee, Kwangho, Evaluation of Daylighting Performance and Design of a Curved-Lightshelf by the Ray Tracing Method. The Korean Solar Energy Society, Vol.3, No.4, 2011.8)
  9. 이종수, "폴리카보네이트 광선반의 채광 및 에너지성능평가에 관한연구", 경희대학교 박사학위논문, 2013// (Lee, Jongsu, Cha Seonjun Yugeun, A study on the assessment of energy performance of photovoltaic light shelf system. A doctor's thesis of of Kyung Hee University, 2013)
  10. 김경수, 심형준, 이행우, 서장후, 김용성 "반사율 변경이 가능한 롤링 타입형 광선반 개발", 한국생태환경건축학회 제 26권 제 5호, 2016 // (Kim Kyungsoo, Shim, Hyungjun, Lee, Heangwoo, Seo, Janghoo, Kim, Yongseong , Development of Rolling type Light-Shelf with adgustable Reflectivity, KIEAE Journal, Vol.16 No.5, 2013)
  11. 채우리, "주거공간의 혼합형 광선반 각도 변화에 따른 채광성능 평가", 국민대 테크노디자인전문대학원 석사학위논문, 설비공학논문집, 제26권 9호 , 2015 // (Chae, Woori, Lee, Heangwoo, Sea, Janghoo, Kim, Yongseang, Performance of Mixed Type Light-shelf in Residential Space According to Angular Variations, Evaluation of Lighting, Vol.26 No.09, 2014)
  12. 한국표준정보망, 조도기준, KS A 3011, 1998 // (Korean Standards Service Network, Recommended levels of illumination, KS A 3011, 1998.07)
  13. 조동우, 윤경, 김강수, "Radiance 프로그램을 이용한 주거공간의 빛 환경 평가에 관한 연구", 대한건축학회 대한건축학회논문집 제 27권 제 2호, 2011 // (Cho, Dong-Woo, Yun Gyeong, Kim, Kang-Soo, A Study on Visual Environment Evaluation of Residential Space Using the Radiance Program, Journal of the architectural institute of Korea planning & design, Vol.27 No.2, 2011)
  14. 권순현, 이행우, 서장후, 김용성, "주거공간 내 사용자인식기술 및 조명 디밍제어 적용 광선반 시스템 성능평가 연구", 대한건축학회논문집 계획계, 제30권 제2호, 2014 // (Kwon Wunhyeon, Lee Heangwoo, Seo Janghoo, Kim Yongseong, A Study on Light Shelf System Performance Evaluation Applying User Awareness and Dimming Control in Housing. Journal of the architectural institute of Korea planning & design, Vol.30, No.2, 2014.02)
  15. 이경수, 친환경 기능성 유리, 광문각, 2009 // (Lee, Kyoungsu, Residental Windows, Kwangmoonkag, 2009.03)
  16. 정봉근, 최안섭, "광센서 조광제어시스템의 광센서 최적 방향성과 위치에 관한 실험적 연구", 조명.전기설비학회논문지, 제17권 제5호, 2003 // (Jung Bongkeun, Choi Anseop, An Experimental Study of the Optimum Spatial Characteristics and Location of Photosensor for Daylight Responsive Dimming Systems. Journal of the Korean institute of illuminating and electrical installation Engineers, Vol.17, No.5, 2003.09)
  17. 김상훈, 이행우, 서장후, 김용성, "에너지 저감을 위한 주거공간 내 위치인식기술 적용 광선반 시스템 개발연구", 설비공학논문집, 제26권 제 6호, 2014 // (Kim Sanghun, Lee Heangwoo, Seo Janghoo, Kim Yongseong, A Study on Light-Shelf System using Location-Awareness Technology for Energy Saving in Residential Space. Korean Journal of Air-Conditioning and Refrigeration Engineering, Vol.26, No.6, 2014.06)
  18. 전강민, 이행우, 서장후, 김용성, "빛환경 및 냉난방환경 기반 광선반성능평가 연구", 한국생태환경건축학회, 제16권 제5호, 2016 // (Jeon, Gangmin, Lee, Heangwoo, Seo, Janghoo, Kim, Yongseong, Performance Evaluation of Light-Shelf based on Light Enviorment and Air Conditioner Enviorment. Korea Institute of Ecological Architecture and Environment, Vol.16, No.5, 2016)

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