Application of the Flowerbed Type Infiltration System for Low Impact Development - Focus on the Application to Eco-Village -

저부하형 개발을 위한 화단형 빗물침투시설 적용방안 - 생태전원마을에서의 적용을 중심으로 -

  • 한영해 (에코아르케 생태도시건축연구소) ;
  • 이태구 (세명대학교 건축공학과) ;
  • Received : 2012.04.23
  • Accepted : 2012.06.08
  • Published : 2012.06.30

Abstract

Since 2000 country region developmental policy has been to integrate not only the improvement of physical living environment but also various subjects on ecology, environment, scenery, local culture, and green tourism. This study has recently established a decentralized Rainwater Management plan in order to provide an hydrology cycle system to the eco-village being planned by Seocheon-gun as a part of the garden village development business promoted by the ministry of agriculture and forestry. Hydraulic conductivity of the subject area is measured at $10^{-7}{\sim}10^{-10}m/sec$, and a flowerbed-type rainwater Infiltration system capable of controlling a non-point pollution source that stems from the development-caused impermeable surface has been applied. In the case of rainwater flowing out from the main entrance way and parking lot within the complex being treated in the flowerbed-type rainwater infiltration system, natural purification effects via soil and plants as well as natural water cycling effects through evaportranspiration and infiltration are expected. The significance of this study, compared to conventional decentralized rainwater management being applied limited to the urban areas, is that it offers appropriate rainwater management planning based on the analysis of the current situation of the subject area. Decentralized Rainwater Management is a valuable measure both economically and ecologically that reduces the burdens on local underground water cultivation as well as rain water pipe lines or purification systems, and sewage pipes.

Acknowledgement

Supported by : 국토해양부

References

  1. 서울대학교(2002), 효율적인 생물서식공간 조성기술 개발, 환경부.
  2. 서응철(2000), 대학 캠퍼스내 야외공간의 여름철 미기후에 관한 연구, 한국교육시설학회 학회지.
  3. 옥용식 외4(2004), 중금속 오염토양의 식물정화 기술과 형질전환 식물의 이용에 관한 연구, 한국토양비료학회지
  4. 이규현 외 2 국내 자생 포플러에 의한 디젤오염 토양 식물정화 방안 연구(2004), 한국폐기물학회, 추계학술연구회발표논문집 p. 455
  5. 에코아르케 생태도시건축연구소(2007), 서천 산너울 생태마을 물순환계획, (주)신화엔지니어링
  6. (주) 이장(2006), 서천군 판교면 등고리 생태․공동체 '산너울' 전원마을 기본계획', 서천군, 2006.9
  7. 한국토지주택공사(2011), 아산 탕정 분산형 빗물관리 체계,
  8. 한영해, 최영국(2005), 생태적 도시개발을 이한 물순환 체계 확보방안 연구. 국토연구원. p.9
  9. 한영해․이태구․황희연(2006), 도시지역의 물순환체계 구축을 위한 화단형 침투․저류시스템 개발, 한국생태환경건축학회
  10. 현경학(2004), 토양정화를 이용한 잡배수 활용기술개발 , 대한주택공사
  11. Bandermann, Stecker, A.(1996), Auswahl und Klassifizierung relevanter Einflussfaktoren auf die dezentrale Regenwasserbewirtschaftung und Anwendung des GIS als Planungshilfe. Zeitschrift fuer Stadtentwawsserung und Gewaesserschutz. H.37.
  12. Colorado Stormwater Task Force(1990), BMP Practices Assesment for the Development of Colorado's Stormwater Management Program, Final Report to Colorado Water QualityControl Division, Denver, 1990.
  13. Earl Shaver(2000), Low Impact Design Manual for The Auckland Region. Auckland Regional Council. p.1
  14. Londong, Dieter and Nothnagel, Annette(1999), Bauen mit dem Regenwasser, R.Oldenbourg Industrieverlag Muechen.
  15. Ministrium fuer Umwelt und Verkehr Baden-Wuerttemberg (2001). Naturvertraegliche Regenwasserbewirtschaftung, Leitfaden fuer Planer, Ingenierure, Architrkten, Kommunen und Behoerden.
  16. Ministerium fuer Landwirtschaft, Umweltschutz und Raumordnung des Landes Brandenburg(2001), Leitfaden zur umweltvertraeglichen und kostenguenstigen Regenwasserbewirtschaftung in Brandenburg.
  17. 김강섭․이상정(2006), 농촌지역 개발정책의 개선방향에 대한 연구, 대한건축학회논문집 계획계 22권 2호(통권208호), 2006.3
  18. 김이형(2007), 비점오염의 현황 및 적정 처리용량 산정을 위한 초기강우 기준 산정, 한국도로학회 제9권2호, 2007.6
  19. Mondale, T.(2001), Minnesota Urban Small Sites BMP Manual - Stormwater Best Management Practices for Cold Climates, Metropolitan Council Environmental Services.
  20. Shaver, E.(2000), Low Impact Design Manual for The Auckland Region, Auckland Regional Council.
  21. Sieker, 1998), Naturnahe Regenwasser bewirtschaftung, Stadoekologie; Bd.1.
  22. Urbonas, Ben and Stahre, Peter(1993), Stormwater ; Best Management Practices and Detention for Water Quality, Drainage and CSO Management, PTR Prentice-Hall, Inc.Earl Shaver.2000
  23. Whalen, P.J. and Callum, M.G.(1988), An Assesment of Urban Land Use : Stormwater Runoff Quality Relationships and Treatment Efficiencies of Selected Stormwater Management System, South Florida Water Management District, Technical Publication 88-89. http://epa.gov/owow/NPS/lid/