Perspectives are different frameworks from which to explore the knowledge around sustainable sanitation and water management. Perspectives are like filters: they compile and structure the information that relate to a given focus theme, region or context. This allows you to quickly navigate to the content of your particular interest while promoting the holistic understanding of sustainable sanitation and water management.
This article investigates the potential for using soil solution chemical properties to study the consequences of recycling sewage-sludge incinerator ash on agricultural land.
BIERMAN, P. ; ROSEN, C. ; BLOOM, P. ; NATER, E. (1995): Soil Solution Chemistry of Sewage-Sludge Incinerator Ash and Phosphate Fertiliser Amended Soil. In: Journal of Environmental Quality: Volume 24 , 279-285. URL [Accessed: 27.05.2019]
This study focused on the main components of sewage sludge incinerated ash, which are silicic acid and alumina, as well as the components for nucleation. Based on this idea, the production of glass-ceramic using sewage sludge incinerated ash as the main material has been attempted.
SUZUKI, S. ; TANAKA, M. ; KANEKO, T. (1997): Glass-ceramic from Sewage Sludge. In: Journal of Materials Science: Volume 32 , 1775-1779. URL [Accessed: 27.05.2019]
This presentation describes the need for recycling phosphorus and the economic sector of the enterprise. There is further information on the process and the pilot plant. Aspects of benchmark and finance are included as well as a brief description of the need for recycling phosphorous (in German).
HERMANN, L. BACHLEITNER, E. (2004): Recycling von Phosphor aus Klärschlammaschen. Vienna: ASH DEC Umwelt AG URL [Accessed: 27.05.2019]
The intermediate project report gives an overview on the STUN (Struvite Recovery from Urine in Nepal) project. STUN is a joint collaboration project of Eawag (Swiss Federal Institute of Aquatic Science and Technology) and UN-Habitat Nepal (The United Nations Human Settlement Pro¬gramme). The goal of the STUN project is a feasibility assessment of the conversion of urine into Struvite powder as a viable means for capturing the nutrients contained in source separated urine.
ETTER, B. (2009): Struvite recovery from urine at community scale in Nepal. Project intermediate report submitted to EPFL (Swiss Federal Institute of Technology Lausanne). Kathmandu: UN Habitat URL [Accessed: 27.05.2019]The webpage of Midwest Rural Energy Council (MREC) provides a wide range of information on implementing small- and mid-scale biogas plantations in order to produce electricity.
Wastewater Characteristics, Treatment and Disposal is the first volume in the series Biological Wastewater Treatment, presenting an integrated view of water quality and wastewater treatment. This book covers the following topics: wastewater characteristics (flow and major constituents), impact of wastewater discharges to rivers and lakes, overview of wastewater treatment systems, complementary items in planning studies.
SPERLING, M. von (2007): Wastewater Characteristics, Treatment and Disposal. (= Biological Wastewater Treatment Series , 1 ). London: International Water Association (IWA) Publishing URL [Accessed: 26.05.2019]
This two-page factsheet by the European Biomass Industry Association gives a brief and concise overview on the topic of Short Rotation Plantations. Especially the benefits of this technology are highlighted.
EUBIA (2008): Short Rotation Plantations: Opportunities for Efficient Biomass Production with the Safe Application of Wastewater and Sewage Sludge. Brussels: European Biomass Industry Association (EUBIA) URL [Accessed: 26.05.2019]
This report gives an overview on the use and disposal of biosolids/sewage sludge in the US between 1998 and 2010.
U.S. EPA (1999): Biosolids Generation, Use, and Disposal in the United States. Washington: United States Environmental Protection Agency URL [Accessed: 26.05.2019]
This factsheet of Sustainable Sanitation Alliance describes the impact of greenhouse gases on climate change and focuses on the advantages of renewable energies. Therefore many different technologies like production of biogas or short-rotation-plantations are mentioned.
SUSANA (2009): Links between Sanitation, Climate Change and Renewable Energies. Eschborn. (= SuSanA fact sheet 09/2009 ). Sustainable Sanitation Alliance (SuSanA) URL [Accessed: 26.05.2019]
A WASHTech literature review of existing frameworks for technology assessment reveals that there is a gap for a WASH technology assessment tool and a WASH technology uptake tool. The authors of the review, which supports the development of WASHTech’s Technology Assessment Framework, (TAF), conclude that a computer tool based on an algorithm is not appropriate because it is too rigid. Choosing a manageable number of appropriate indicators is key for assessing new technologies.
OLSCHEWSKI, A. DANERT, K. FUREY, S. KLINGEL, F. (2011): Review of Frameworks for Technology Assessment. WASHTech Deliverable 3.1. St. Gallenand The Hague : Swiss Centre for Development Cooperation in Technology and Management (SKAT) and International Water and Sanitation Centre (IRC) URL [Accessed: 26.05.2019]
A short booklet explaining the notion of ecological sanitation, closing the water and the nutrient/energy loops and also giving practice examples.
ALSEN, K.W. ; JENSSEN, P. (2004): Ecological Sanitation: for Mankind and Nature. Aas: Norwegian University of Life Sciences URL [Accessed: 26.05.2019]
This is a chapter on a rainwater-harvesting manual from the Public Health Engineering Department in India. It gives an extensive overview on different groundwater recharge technologies and approaches.
PHEDM (n.y): Chapter 9: Artificial Groundwater Recharge. In: PHEDM (n.y): Rain Water Harvesting ManuaI. Meghalaya State Centre, India: . URL [Accessed: 26.05.2019]
This document provides an overview and introduction on biogas sanitation (anaerobic digestion) for blackwater or for brown water, or excreta treatment for reuse in developing countries. The main technologies discussed are biogas settlers (BSs), biogas septic tanks, anaerobic baffled reactor (ABRs), anaerobic filter (AFs) and upflow anaerobic sludge blanket reactors (UASBs).
MANG, H.-P. LI, Z. (2010): Technology Review of Biogas Sanitation. (= Technology Review ). Eschborn: Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH URL [Accessed: 26.05.2019]
This Technical Brief reviews some of the options for wastewater treatment in low- and middle-income communities. It should be used as a guide to the main options available.
WELL (n.y): Wastewater Treatment Options. (= WELL Technical Briefs , 64 ). Loughborough: Water and Environmental health at London and Loughborough (WELL) URL [Accessed: 26.05.2019]The Netherlands Development Organisation (SNV) library hosts an extensive choice of domestic biogas reports from around the world domestic biogas.
This practical guideline on the use of urine in agricultural productions gives some background information on basic plant requirements and how they can be met with urine as a liquid fertiliser.
RICHERT, A. GENSCH, R. JOENSSON, H. STENSTROEM, T.A. DAGERSKOG, L. (2010): Practical Guidance on the Use of Urine in Crop Production. (= EcoSanRes Publication Series, Report No. 2010-1 ). Stockholm: Stockholm Environment Institute (SEI) URL [Accessed: 26.05.2019]
This information service on biogas technology has been developed and produced on the order of the GTZ project Information and Advisory Service on Appropriate Technology (ISAT). Volume III discusses the micro- and macro-economic viability of biogas sanitation systems.
ISAT ; GTZ (1999): Biogas - Costs and Benefits and Biogas – Programme Implementation. (= Biogas Digest , 3 ). Information and Advisory Services on Appropriate Technology (ISAT) and German Agency for Technical Cooperation GmbH (GmbH) URL [Accessed: 26.05.2019]
This report is a basic assessment of the feasibility and potential for using animal wastes in anaerobic methane digesters to create electricity in Minnesota. It covers an estimation of the electricity potential, the farm-size thresholds that warrant further investigation for a potential digester system, a quantification of the impact of incentives as well as a financial analysis.
MDC (2003): Minnesota's Potential for Electricity Production Using Manure Biogas Resources. Final Report. Minnesota: Minnesota Department of Commerce (MDC) and State Energy Office (SEO). [Accessed: 23.04.2010] PDF