Journal of the Architectural Institute of Korea Planning & Design (대한건축학회논문집:계획계)

Architectural Institute of Korea (대한건축학회)
권호 표지
DOI QR코드

DOI QR Code

Design Criteria for Preventing Inside Surface Condensation on the Curtain Wall Systems of Office Buildings

사무소 건물 커튼월 시스템의 표면결로 방지 설계기준

  • Received : 2012.09.04
  • Published : 2012.11.25
⟨ Previous Next ⟩

Abstract

Recently, curtain wall system has been applied to much more high rise buildings because of its convenience of construction. However, inside surface condensation on the curtain wall systems still has been a problem. The aim of this study is to suggest design criteria to prevent inside surface condensation on the curtain wall systems of office buildings. A variety of criteria including codes, standards and specifications of Korea and other countries were analyzed and the lowest temperature factor of 0.7 for Seoul was suggested as design criteria. In case of thermally-broken aluminum framed curtain wall system, it was shown that double glazing with soft low-e coating, argon gas, thick-walled plastic spacer and triple glazing with thick-walled plastic spacer could meet the design criteria.

Keywords

Acknowledgement

Grant : 파사드결로 방지 기준수립 및 요소기술 데이터베이스 구축

Supported by : 삼성물산

References

  1. 국토해양부 고시 제2012-69호, 건축물의 에너지절약 설계기준, 2012.2.23.
  2. 김성근, 커튼월 결로 성능평가에 관한 연구, 한국건설관리학회 학술발표대회 논문집, 2008.11
  3. 송승영, 김수미, 박효순, Low-e 코팅과 단열 스페이서 적용에 따른 알루미늄 및 PVC 프레임 복층 유리 창호시스템의 단열성능 평가, 대한건축학회논문집 계획계, 22권 4호, 2006.04, pp.285-292
  4. 송승영, 실내 표면결로 방지를 위한 열교부위의 적정 단열정도 결정방법에 관한 연구, 대한건축학회논문집 계획계, 14권 10호, 1998.10, pp.275-284
  5. 주선경, 송승영, 단열 스페이서 적용에 따른 창호시스템의 표면결로 방지성능 평가, 대한건축학회논문집 계획계, 20권 10호, 2004.10, pp.311-318
  6. 황하진, 김종엽, 이종성, 공동주택 세대내 결로방지 설계를 위한 실내외 온습도 기준 수립 연구, LHI Journal, 2권 3호, 2011, pp.269-276
  7. KS F 2295 창호의 결로방지 성능 시험 방법, 2004
  8. AAMA 1503.1 Voluntary Test Method for Thermal Transmittance and Condensation Resistance of Windows, Doors, and Glazed Wall Sections, American Architectural Manufacturers Association, 2009.3
  9. ASHRAE, ASHRAE Handbook - HVAC Application, 2007
  10. Asumisterveysohje, Sosiaali- ja terveysministerion oppaita 2003:1, Sosiaali- ja terveysministerio, Helsinki, 2003
  11. Building Regulations 2000(영국), Approved Document L1A, L1B, L2A, L2B, 2010.10
  12. DIN 4108-2:2001-03, Warmeschutz und Energie- Einsparung in Gebauden. Teil 2: Mindestanforderungen an den Warmeschutz. Deutsches Institut fur Normung, Berlin, 2001
  13. Dutch Building Code Online, http://www.bouwbesluitonline.nl
  14. ISO 10211, Thermal bridges in building construction-Heat flows and surface temperatures-Detailed calculations, 2007
  15. LBNL, THERM6.3/WINDOW6.3 NFRC Simulation Manual, 2011.12
  16. National Building Code of Canada 2005, Division B Acceptable, 2005
  17. National Standard of Canada, Canadian Standards Association(CSA), CAN/CAS-A440-00 Windows/440.1-00 User Selection Guide to CSA Standard A440-00 Windows, 2000.12
  18. NFRC 102-2010 Procedure for measuring the steady-state thermal transmittance of fenestration systems
  19. NFRC 500-2010 Procedure for Determining Fenestration Product Condensation Resistance Values, 2010
  20. NFRC 500UG-2002 User Guide to NFRC 500: Procedure for Determining Fenestration Product Condensation Resistance Values, 2002
  21. ONORM B 8110-2(오스트리아), Warmexchutz im Hochbau-Wasserdampfdiffusion und Kondensationsschutz (Austrian standard B 8110-2, Thermal insulation in builidng construction-Water vapour diffusion and protection against condensation), Osterreichisches normungsinstitut, 2002