Your search found 4 records
1 Fresco, L. O.; Stroosnijder, L.; Bouma, J.; van Keulen, H. (Eds.) 1994. The future of the land: Mobilising and integrating knowledge for land use options. Chichester, UK: John Wiley. xviv, 409p.
Land use ; Planning ; Environmental effects ; Sustainability ; Information systems ; Farmer participation ; Maize ; Fertilizers ; Case studies ; Households ; Decision making ; Ecosystems / Eastern Europe / Africa / Costa Rica / Netherlands / Mali / Kenya / Scotland / Tanzania / Thailand / USA / Flanders
(Location: IWMI-HQ Call no: 333.76 G000 FRE Record No: H016088)
2 Maxwell, W. C. H.; Preul, H. C.; Stout, G. E. (Eds.) 1996. Proceedings Rivertech 96 - Volume 2: 1st International Conference on New/Emerging Concepts for Rivers, September 22 - September 26, 1996, Fairmont Hotel, Chicago, Illinois, USA. Urbana, IL, USA: IWRA. pp.475-931.
Water resources development ; Rivers ; Environmental effects ; Water quality ; Legislation ; Pollution control ; History ; Catchment areas ; Open channels ; Flow ; Sedimentation ; Models ; Forecasting ; Seepage ; Velocity ; Stochastic process ; Weirs ; Wastewater ; Simulation models ; Mathematical models ; Case studies ; Flood plains ; Watershed management ; Rehabilitation ; Wetlands ; Ecosystems ; Dams ; Design ; Water resource management ; Automation ; Runoff ; Databases ; Information services ; Rainfall-runoff relationships ; Computer software ; Flood control ; Drought ; Analysis / UK / Wales / USA / Spain / Bangladesh / Russian Federation / Iran / Croatia / China / Taiwan / Belgium / Egypt / Birmingham / River Dee / Chicago / Lake Michigan / River Tame / Schoharie Creek / Hatchie River / Dhaka / Khuzestan / Karkh-e River / Illinois / Upper Sangamon River Basin / Lake Decatur Watershed / Sava River Basin / North Tianshan Region / Illinois River / Mackinaw River / Rock River / Indiana / Tung-Kang River / Missouri River / Mississippi River / Flanders / Rhine River / Danube River / Nile River
(Location: IWMI-HQ Call no: 627.12 G000 MAX Record No: H021108)
3 van Humbeeck, P. 2000. The distributive effects of water price reform on households in the Flanders region of Belgium. In Dinar, A. (Ed.), The political economy of water pricing reforms. New York, NY, USA: OUP, for the World Bank. pp.279-295.
Water supply ; Water rates ; Pricing ; Wastewater ; Households ; Social aspects / Belgium / Flanders
(Location: IWMI-HQ Call no: 631.7.4 G000 DIN Record No: H026589)
4 Kehrein, P.; van Loosdrecht, M.; Osseweijer, P.; GarfĂ, M.; Dewulf, J.; Posada, J. 2020. A critical review of resource recovery from municipal wastewater treatment plants - market supply potentials, technologies and bottlenecks. Environmental Science: Water Research and Technology, 6(4):877-910. [doi: https://doi.org/10.1039/C9EW00905A]
Municipal wastewater ; Resource recovery ; Wastewater treatment plants ; Technology ; Water reuse ; Health hazards ; Fertilizers ; Membrane filtration ; Oxidation ; Sewage sludge ; Waste incineration ; Cellulose ; Energy recovery ; Methane ; Biogas ; Thermal energy ; Nutrients ; Markets ; Policies / Netherlands / Belgium / Flanders
(Location: IWMI HQ Call no: e-copy only Record No: H049692)
https://pubs.rsc.org/en/content/articlepdf/2020/ew/c9ew00905a
https://vlibrary.iwmi.org/pdf/H049692.pdf
https://vlibrary.iwmi.org/pdf/H049692.pdf
(2.11 MB) (2.11 MB)
In recent decades, academia has elaborated a wide range of technological solutions to recover water, energy, fertiliser and other products from municipal wastewater treatment plants. Drivers for this work range from low resource recovery potential and cost effectiveness, to the high energy demands and large environmental footprints of current treatment-plant designs. However, only a few technologies have been implemented and a shift from wastewater treatment plants towards water resource facilities still seems far away. This critical review aims to inform decision-makers in water management utilities about the vast technical possibilities and market supply potentials, as well as the bottlenecks, related to the design or redesign of a municipal wastewater treatment process from a resource recovery perspective. Information and data have been extracted from literature to provide a holistic overview of this growing research field. First, reviewed data is used to calculate the potential of 11 resources recoverable from municipal wastewater treatment plants to supply national resource consumption. Depending on the resource, the supply potential may vary greatly. Second, resource recovery technologies investigated in academia are reviewed comprehensively and critically. The third section of the review identifies nine non-technical bottlenecks mentioned in literature that have to be overcome to successfully implement these technologies into wastewater treatment process designs. The bottlenecks are related to economics and value chain development, environment and health, and society and policy issues. Considering market potentials, technological innovations, and addressing potential bottlenecks early in the planning and process design phase, may facilitate the design and integration of water resource facilities and contribute to more circular urban water management practices.
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