MUNICIPAL STRATEGIES AND CURRENT GOVERNANCE TRENDS FOR SUSTAINABLE STORMWATER MANAGEMENT IN EXISTING SETTLEMENTS IN GERMANY
DOI:
https://doi.org/10.30890/2709-2313.2024-31-00-023Keywords:
stormwater, governance, compulsory connection and usage, stormwater charges, GermanyAbstract
This article explores how stormwater management is handled in existing settlements, where restructuring the drainage system is complex and often requires the active involvement of property owners. Recognizing the need for diverse local strategies to meetMetrics
References
European Environment Agency (EEA). Climate Change and Water Adaptation Issues; European Environment Agency: Copenhagen, Denmark, 2007.
Koop, S.H.A.; van Leeuwen, C.J. The challenges of water, waste and climate change in cities. Environ. Dev. Sustain. 2017, 19, 385–418.
Hummel, D.; Lux, A. Population Decline and Infrastructure: The Case of the German Water Supply System. In Vienna Yearbook of Population Research; Vienna Institute of Demography (VID) of the Austrian Academy of Sciences in Vienna: Vienna, Austria, 2007.
Wong, T.H.; Brown, R.R. The water sensitive city: Principles for practice. Water Sci. Technol. 2009, 60, 673–682.
Lundin, M.; Morrison, G.M. A life cycle assessment-based procedure for development of environmental sustainability indicators for urban water systems. Urban Water 2002, 4, 145–152.
Markard, J. Transformation of Infrastructures: Sector Characteristics and Implications for Fundamental Change. J. Infrastruct. Syst. 2011, 17, 107–117.
Newman, P. Sustainable urban water systems in rich and poor cities—Steps towards a new approach. Water Sci. Technol. 2001, 43, 93.
Butler, D. Urban water—Future trends and issues. In Hydrology: Science and Practice for the 21st Century, 2nd ed.;Webb, B., Ed.; British Hydrological Society: London, UK, 2004; pp. 233–242.
Kabisch, S., Koch, F., Gawel, E., Haase, A., Knapp, S., Krellenberg, K., Nivala, J., Zehnsdorf, A., Eds.; Springer International Publishing: Cham, Germany, 2018; pp. 21–44.
Hoyer, J.; Dickhaut, W.; Kronawitter, L.; Weber, B. Water Sensitive Urban Design—Principles and Inspiration for Sustainable Stormwater Management in the City of the Future; JOVIS Verlag GmbH: Berlin, Germany, 2011.
Nickel, D.; Schoenfelder, W.; Medearis, D.; Dolowitz, D.P.; Keeley, M.; Shuster, W. German experience in managing stormwater with green infrastructure. J. Environ. Plan. Manag. 2014, 57, 403–423.
Kuchenbecker, A.; Bischo_, G.; Ziegler, J.; Krieger, K.; Verworn, H. Auswirkungen des Klimawandels auf das Hamburger Kanalnetz. Korresp. Abwasser Abfall 2010, 57, 874–881.
Steinbrich, A.; Henrichs, M.; Leistert, H.; Scherer, I.; Schuetz, T.; Uhl, M.; Weiler, M. Ermittlung eines naturnahenWasserhaushalts als Planungsziel für Siedlungen (Determination of a natural water balance as reference for planning in urban areas). Hydrol. Wasserbewirtsch. 2018, 62, 400–409.
Gogate, N.G.; Kalbar, P.P.; Raval, P.M. Assessment of stormwater management options in urban contexts using Multiple Attribute Decision-Making. J. Clean. Prod. 2017, 142, 2046–2059.
Campisano, A.; Di Liberto, D.; Modica, C.; Reitano, S. Potential for Peak Flow Reduction by Rainwater Harvesting Tanks. Procedia Eng. 2014, 89, 1507–1514.
Göbel, P.; Stubbe, H.;Weinert, M.; Zimmermann, J.; Fach, S.; Dierkes, C.; Kories, H.; Messer, J.; Mertsch, V.; Geiger,W.F.; et al. Near-natural stormwater management and its e_ects on the water budget and groundwater surface in urban areas taking account of the hydrogeological conditions. J. Hydrol. 2004, 299, 267–283.
Joksimovic, D.; Alam, Z. Cost E_ciency of Low Impact Development (LID) Stormwater Management Practices. Procedia Engineering 2014, 89, 734–741.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2024 Authors
This work is licensed under a Creative Commons Attribution 4.0 International License.
