Library

SACHSE, A., LIAO, Z., HU, W., DAI, X. and KOLDITZ, O. (Eds) (2019): Chinese Water Systems. Volume 2: Managing Water Resources for Urban Catchments: Chaohu. Terrestrial Environmental Sciences. Switzerland: Springer Nature Switzerland URL [Accessed: 30.05.2023] PDF

Sustainable Management of Available Water Resources with Innovative Technologies - Management of Highly Variable Water Resources in Semi-Arid Regions (SMART-MOVE) is the follow-up and implementation phase of the preceding SMART I and II projects, which aimed at developing a transferable approach for Integrated Water Resources Management (IWRM) in the Lower Jordan Valley. The objective of one of the work packages was the application of the GIS-based ALLOWS tool to identify potential wastewater management solutions and to provide associated cost indicators for the solutions in the Al-Salt region.

LANGE, T., RUSTEBERG, B., SAUTER, M., ALMANASEER, N., VOGEL, K. (2019): Integrated Water Resources Management in the Lower Jordan Valley Sustainable Management of Available Water Resources with Innovative Technologies - Management of Highly Variable Water Resources in semi-arid Regions SMART-MOVE. In: Final Report -SMART-Phase III URL [Accessed: 30.05.2023]

AUBRON, T., VAN AFFERDEN, M., KHURELBAATAR, G. and MÜLLER, R. A. (2019): WP-B: Development and Testing of a GIS-Based Planning Tool for Creating Decentralized Sanitation Scenarios. Chapter 4, pp. 125-158. In: SACHSE, A., LIAO, Z., HU, W., DAI, X. and KOLDITZ, O. (Eds) (2019): Chinese Water Systems. Volume 2: Managing Water Resources for Urban Catchments: Chaohu. . URL [Accessed: 30.05.2023]

The AUTARCON webpage provides information about the solar-powered SuMeWa|SYSTEM product family for decentralised water purification.

http://www.autarcon.com/ [Accessed: 18.05.2023]

The article presents AUTARCON’s decentralised drinking water disinfection system SuMeWa|SYSTEM, short for Sun Meets Water, and reports on a pilot project in Egypt.

http://www.tea-after-twelve.com/all-issues/issue-04/issue-04/chapter-2/sun-meets-water/ [Accessed: 18.05.2023]

SINGH, G., BHATI, M. and RATHOD, T. (2010): Use of tree seedlings for the phytoremediation of a municipal effluent used in dry areas of north-western India: Plant growth and nutrient uptake. In: Ecological Engineering: Volume 36 Issue 10, p. 1299-1306. URL [Accessed: 17.05.2023]

The webpage of Forest Research, subsection Energy crops, depicts general information regarding WFSRC planting, growth, yield, harvesting, species, among others.

https://www.forestresearch.gov.uk/tools-and-resources/fthr/biomass-energy-resources/fuel/energy-crops/short-rotation-coppice/ [Accessed: 17.05.2023]

LIESEBACH, M., VON WUEHLISCH, G. and MUHS, J. Aspen for short-rotation coppice plantations on agricultural sites in Germany: Effects of spacing and rotation time on growth and biomass production of aspen progenies. In: Forest ecology management, Vol. 121, Issue 1/2: , p. 25-39. URL [Accessed: 17.05.2023]

HAENEL, M., ISTENIC, D., BRIX, H. and ARIAS, C Wastewater-Fertigated Short-Rotation Coppice, a Combined Scheme of Wastewater Treatment and Biomass Production: A State-of-the-Art Review. In: Forest: Volume 13 , p.810. URL [Accessed: 17.05.2023] PDF

ECOSAN CLUB (2016): Sustainable Sanitation Practice - the NaWaTech project. Vienna, austria: EcoSan Club, Issue 25 URL [Accessed: 17.05.2023] PDF

DE OLIVEIRA, L., CORAUCCI, B., ROSTON, D., STEFANUTTI, R. and TONETTI, A. (2014): Evaluation of the Productivity of Irrigated Eucalyptus grandis with Reclaimed Wastewater and Effects on Soil. In: Water, Air, & Soil Pollution 225:1830: URL [Accessed: 17.05.2023] PDF

BÖRJESSON, P. and BERNDES, G. (2006): The prospects for willow plantations for wastewater treatment in Sweden. In: Biomass and Bioenergy: Volume 30 Issue 5, 428-438. URL [Accessed: 17.05.2023]

This Scientific and Technical Report (STR) targets engineers on wetland design, academics as well as decision makers and audience from a non-water technical background who have an interest in wetland technology and its potential.

The (STR) outlines the new approach to water management and the roles of wetlands in this new approach, the treatment wetland design and provides practical information in design specific wetland types and typically pitfalls and present relevant case studies.

In chapter 4- Designing wetlands for specific application, subsection 4.7 – Biomass production, the student will find specific information regarding WFSRC including: perspectives, sources, design, among others.

ISTENIC, D., BULC, T., CIRELLI, G., MARZO, A. and MILANI, M. (2019): 4.7 Biomass production. In: LANGERGRABER, G., DOTRO, G., NIVALA, J., RIZZO, A. and STEIN, O. (Eds.) ; (2019): Wetland Technology. Practical Information on the Design and Application of Treatment Wetlands. Scientific and Technical Report Nº 27. London: International Water Association (IWA), p.38-41. URL [Accessed: 17.05.2023] PDF

This Scientific and Technical Report (STR) targets engineers on wetland design, academics as well as decision makers and audience from a non-water technical background who have an interest in wetland technology and its potential.

The (STR) outlines the new approach to water management and the roles of wetlands in this new approach, the treatment wetland design and provides practical information in design specific wetland types and typically pitfalls and present relevant case studies.

LANGERGRABER, G., DOTRO, G., NIVALA, J., RIZZO, A. and STEIN, O. (Eds.) (2019): Wetland Technology. Practical Information on the Design and Application of Treatment Wetlands. Scientific and Technical Report Nº 27. London: International Water Association (IWA). URL [Accessed: 17.05.2023] PDF

SUSANA (2012): Links between sanitation, climate change and renewable energies. In: Renewable energies and climate change: Working Group 3. Sustainable Sanitation Alliance (SUSANA). URL [Accessed: 17.05.2023] PDF

The European Biomass Industry Association (EUBIA) - Short rotation forestry webpage, presents general knowledge, projects, events and news regarding WFSRC.

https://www.eubia.org/cms/wiki-biomass/short-rotation-forestry/ [Accessed: 17.05.2023]

MORTENSEN, J., NIELSEN, K. and JØRGENSEN, U. (1998): Nitrate leaching during establishment of willow (Salix viminalis) on two soil types and at two fertilization levels. In: Biomass and Bioenergy: Volume 15 Issue 6, p. 451-466. URL [Accessed: 17.05.2023]

HOLM, B. and HEINSOO, K. (2013): Municipal wastewater application to Short Rotation Coppice of willows – Treatment efficiency and clone response in Estonian case study. In: Biomass and Bioenergy: Volume 57 , p. 126-135. URL [Accessed: 17.05.2023]

GUIDI, W., JERBI, A., LAFLEUR, B., FLUET, R. and LABRECQUE, M. (2015): Willows for the treatment of municipal wastewater: Performance under different irrigation rates. In: Ecological Engineering: Volume 81 , p.395-404. URL [Accessed: 17.05.2023] PDF

DIMITRIOU, I. and RUTZ, D. (2015): Sustainable Short Rotation Coppice. A Handbook. Munich, Germany: WIP Renewable Energies URL [Accessed: 17.05.2023] PDF