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http://dx.doi.org/10.11001/jksww.2012.26.5.637

A study on the classification of storages in urban area  

Ryu, Jaena (중앙대학교 사회기반시스템공학부)
Oh, Jeill (중앙대학교 사회기반시스템공학부)
Lee, Ho Ryeong (조선대학교 환경생명공학과)
Publication Information
Journal of Korean Society of Water and Wastewater / v.26, no.5, 2012 , pp. 637-647 More about this Journal
Abstract
Recent series of flooding events in urban area has brought a growing concern on storage facilities as a major stormwater management method. The Korean Ministry of Environment has announced diverse plans to tackle the problem, including plans for multi-purpose storages which deal both the stormwater and wastewater. Even though storages can be categorized for different perspectives, classification of possible storages in urban area has not been throughly studied so far. This study investigated diverse references of urban storages and suggested systematic classifications on structural, functional and some other basis. Structural classification mainly concerns structural shape of facilities and includes (1)Cisterns & Rain barrels, (2)Forebays, (3)Dry basins, (4)Wet basins and (5)Constructed wetland. Those functions can be (1)flood prevention (2)water quality control and (3)reuse of stored water. Other criteria that categorize storages depend on (1)height, (2)location, (3)configuration, (4)depth, (5)site of the installation and (6)shape.
Keywords
storages; urban storage classification; stormwater management; water quality management; multi-purpose storages;
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  • Reference
1 ASCE (2012) Design of urban stormwater controls, WEF Manual of Practice No. 23, ASCE/EWRI Manuals and Reports on Engineering Practice No. 87., WEF Press, McGrawHill
2 Butler, D. and Davies, J. W. (2011) Urban drainage, 3rd edn., E &FN Spon, London
3 CIRIA (2007) The SUDS manual, CIRIA C697, Construction Industry Research and Information Association, London
4 US EPA (1993) Guidance manual for developing Best Management Practices (BMP), EPA 833-B-93-004, U.S. Environmental Protection Agency, Cincinnati
5 US EPA (2002) Considerations in the design of treatment Best Management Practices (BMPs) to improve water quality, EPA/600/R-03/103, U.S. Environmental Protection Agency, Cincinnati
6 東京都總 合治水對策協議會 (2009) 東京都雨水貯留.浸透施8設技術指針
7 류재나, 오재일 (2011) 대형 하수저류시설 설치 및 운영관리 계획 마련 연구, 대한상하수도학회.한국물환경학회 2011공동 추계학술발표회 논문요약집, 2011년 11월 2-3일 대전컨벤션센터
8 국무총리실 (2011) 기후변화 대응 재난관리 개선 종합대책, 국무총리실 재난관리 개선 민관합동 TF
9 윤용남, 안재현 (2006) 홍수방어대안의 선정절차 및 수리.수문학적 평가절차 실무지침개발, 도시홍수재해관리기술연구사업단, FFC 05-15
10 류재나, 오재일, 이경용 (2011) 하수저류시설 타당성 분석 연구, 상하수도학회지, 25(6), pp. 935-947
11 소방방재청 (2010) 우수유출저감시설의 종류.구조.설치 및 유지관리 기준
12 하수도법 [시행 2012.7.22] [법률 제10893호, 2011.7.21, 타법개정]
13 환경부 ( 2011a) 기후변화 대응을 위한 다기능 하수도 구축계획, 2011년 비점오염, 가축분뇨 관리 연찬회
14 환경부 ( 2011b) 대형하수터널의 국내도입 타당성 조사 보고서(안)
15 환경부 ( 2011c) 하수도시설기준