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Preventive and Customized Maintenance of Underground Water Infrastructure

  • Fangfang ZhaoEmail author
  • Regina HaußmannEmail author
  • Johannes Pinnekamp
Chapter
Part of the Future City book series (FUCI, volume 12)

Abstract

Maintenance of sewer networks is essential for their efficient and stable operation. Although sewer maintenance is basically the same regardless of network type, the specific situation of a particular network will determine how much and how often maintenance is needed. Therefore, the current state of a particular network must be described in detail to identify deficiencies and formulate targets of sewer maintenance which can be tailored to the network. In this article, we present the status quo of sewer networks and their maintenance in Germany and China and suggest how to maintain sewer networks in a customized way. In particular, we place special emphasis on adapting networks to current policy requirements in China using the concept of “sponge cities (海绵城市)” and the concept of “urban landscapes and ecological restoration (Shuangxiu 城市双修).”

References

  1. Anbari MJ, Tabesh M, Roozbahani A (2017) Risk assessment model to prioritize sewer pipes inspection in wastewater collection networks. J Environ Manag 190:91–101CrossRefGoogle Scholar
  2. Angrill S, Petit-Boix A, Morales-Pinzón T, Josa A, Rieradevall J, Gabarrell X (2017) Urban rainwater runoff quantity and quality – a potential endogenous resource in cities? J Environ Manag 189:14–21CrossRefGoogle Scholar
  3. Baah K, Dubey B, Harvey R, McBean E (2015) A risk-based approach to sanitary sewer pipe asset management. Sci Total Environ 505:1011–1017CrossRefGoogle Scholar
  4. Barringer HP (2003) A life cycle cost summary, P.E. Barringer & Associates, Inc. Humble, Texas, USA, International Conference of Maintenance Societies (ICOMS®-2003), Maintenance Engineering Society of Australia, A Technical Society Of The Institution of Engineers, AustraliaGoogle Scholar
  5. Berger C, Falk C, Hetzel F, Pinnekamp J, Roder S, Ruppelt J (2016) Zustand der Kanalisation in Deutschland – Ergebnisse der DWA-Umfrage 2013. In: Korrespondenz Abwasser, Abfall; 2016 (63), Nr.6, S. 498–508Google Scholar
  6. Bochum: Dezernatsverteilungsplan, state October 18th, 2017. https://www.bochum.de/C12571A3001D56CE/vwContentByKey/W2A3H8J8743BOCMDE/$FILE/Dezernatsverteilungsplan.pdfGoogle Scholar
  7. Brombach H, Dettmar J (2016) Im Spiegel der Statistik: Abwasserkanalisation und Regenwasserbehandlung in Deutschland. Reflected in Statistics: Sewerage and Stormwater Treatment in Germany, KA Korrespondenz Abwasser, Abfall (63) Nr 3Google Scholar
  8. Cai JS (蔡建升), Li L (n.d.) (李璐):中国建设报—市政排水管网市场化运作对策.http://www.chinajsb.cn/gb/content/2010-03/26/content_305826.htm,2012.06
  9. CPC Central Committee and State Council (中共中央、国务院): National New Urbanization Planning (2014–2020) 《国家新型城镇化规划(2014年~2020年)》.http://www.gov.cn/zhengce/2014-03/16/content_2640075.htm
  10. Deng ZG (邓志刚): 论市政排水管网的优化设计. http://www.xzbu.com/1/view-6973011.htm
  11. DIN EN 13306: Maintenance–Maintenance terminology; Trilingual version EN 13306:2017, November 2017Google Scholar
  12. DWA-Arbeitsblatt A 174: Betriebsaufwand für die Kanalisation - Hinweise zum Personal-, Fahrzeug- und Gerätebedarf, Deutsche Vereinigung für Wasserwirtschaft, Abwasser und Abfall e.V., Hennef, Oktober 2005Google Scholar
  13. DWA-Arbeitsblatt A 147: Anforderungen an den Betrieb und die Unterhaltung von Kanalisationsnetzen, Deutsche Vereinigung für Wasserwirtschaft, Abwasser und Abfall e.V., Hennef, März 2017Google Scholar
  14. DWA-Themen: Instandhaltung von Kläranlagen, Deutsche Vereinigung für Wasserwirtschaft, Abwasser und Abfall e.V., Hennef, April 2009Google Scholar
  15. Fenner RA (2000) Approaches to sewer maintenance: a review. Urban Water 2:343–356CrossRefGoogle Scholar
  16. Fenner RA, Sweeting L (1999) A decision support model for the rehabilitation of non-critical sewers. Water Sci Technol 39(9):193–200CrossRefGoogle Scholar
  17. Fenner RA, Sweeting L, Marriott M (2000) A new approach for directing proactive sewer maintenance. Proc Inst Civil Eng Water Maritime Energy J 124(2):67–78Google Scholar
  18. Grigg NS (1994) Maintenance management systems for urban drainage. In: Macaitis WA (ed) Urban drainage rehabilitation programs and techniques. ASCE, New York, pp 2–10Google Scholar
  19. Haussmann R (1995) Optimierung des Betriebes von Entwässerungsnetzen, Gewässerschutz-Wasser-Abwasser, Band 148, AachenGoogle Scholar
  20. Jiaxing City Government (嘉兴市政府): Jiaxing city government information DisClosure 嘉兴市政府信息公开. http://www.jiaxing.gov.cn/zwxx/index_902.html
  21. Kuang N (邝诺), Wang HH (王欢欢), Li J (李骥): 北京城市排水管网管理系统的设计与应用. China Water & Wastewater 27(8),Apr.2011Google Scholar
  22. Li XH (李小恒): 北京城区排水管网运行与维护管理, Beijing Drainage Group CO., LTD 北京排水集团管网分公司, 2011.9.20Google Scholar
  23. Liu L (刘丽): 无锡市政污水管网基本实现全覆盖, Wuxi Daily无锡日报, 2017.06.01. http://js.ifeng.com/a/20170601/5714838_0.shtml
  24. Liu ZC (刘昭成), Zeng FY (曾凡勇): 浅谈国内外城市排水管网现状,湖南省国际工程咨询中心,湖南长沙,01.2013. http://blog.sina.com.cn/s/blog_981414080101a9m7.html
  25. Ministry of Housing and Urban-Rural Development of the People’s Republic of China (MOHURD) (中华人民共和国住房和城乡建设部): 全面开展“城市双修”推动城市转型发展-住房城乡建设部印发《关于加强生态修复城市修补工作的指导意见》2017.03.06. http://www.mohurd.gov.cn/zxydt/201703/t20170309_230929.html
  26. National Bureau of Statistics of China 中华人民共和国国家统计局, National Data: China Statistical Yearbook 2015 (国家数据:2015年中国统计年鉴)Google Scholar
  27. National Bureau of Statistics of China 中华人民共和国国家统计局, National Data: China Statistical Yearbook 2002–2015 (国家数据:2002至2015年中国统计年鉴)Google Scholar
  28. Ostermann R: Dynamische GIS - gestützte Bereitstellung der ABK – Daten am Beispiel der Stadt Ratingen, Ministerium für Umwelt und Naturschutz, Landwirtschaft und Verbraucherschutz des Landes Nordrhein-Westfalen (MUNLV NRW), 2009Google Scholar
  29. Outline of the 13th Five-Year Plan for the National Economic and Social Development of the People’s Republic of China (2016–2020) 中华人民共和国国民经济和社会发展第十三个五年规划纲要(2016–2020),2016.03.16Google Scholar
  30. Steffens G (2015) SMART criteria: become more successful by setting better goals, management & marketingGoogle Scholar
  31. Wasserinformationssystem ELWAS www.elwasweb.nrw.de/
  32. Wu YY (吴莹莹): 市政排水管网科学性优化设计, 上海林同炎李国豪土建工程咨询有限公司. http://www.gwyoo.com/lunwen/shejilunwen/yhsjlw/201606/630582.html
  33. Yang JR (杨敬茹), Luo SS (罗杉山): 城市排水管网改造设计浅析. http://www.xzbu.com/2/view-7173078.htm
  34. Yu KJ (俞孔坚): 海绵城市理论与实践: City Planning Review 城市规划, 2015,39(6):26–36. https://www.turenscape.com/paper/detail/429.html
  35. Zanella A, Bui N, Castellani A, Vangelista L, Zorzi M (2014, February) Internet of things for smart cities. IEEE Internet Things J 1(1):22–32CrossRefGoogle Scholar
  36. Zhang FL(张凤礼):浅谈我国城市排水建设与发展[J],中国新技术新产品, 2010, 5:25~28Google Scholar
  37. Zhang ZW (张志伟): 市政排水管网运行管理及养护工作重点分析. http://www.xzbu.com/1/view-7025572.htm
  38. Zhang C (张辰):要保障城镇排水管网高效安全运行. http://www.chndaqi.com/column/496.html

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.Institute of Environmental Engineering (ISA)RWTH Aachen UniversityAachenGermany

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