In areas that experience a seasonally high groundwater table or that are prone to flooding, constructing affordable on-site sanitation facilities can be very problematic. It is a challenge that affects many countries worldwide. This technical brief provides practical guidance on some sanitation options in such conditions.
PARRY-JONES, S. (1999): On-Site Sanitation in Areas with a High Groundwater Table. Leicestershire: , Engineering and Development Centre (WEDC) Loughborough University URL [Accessed: 31.05.2019]Library
Selected examples of graphical user instruction for dehydration toilets.
GTZ (2006): Dehydration Toilets. User Instructions for Dehydration Toilets . (= Technical Data Sheets for Ecosan Components, 02-C2 ). Eschborn: German Agency for Technical Cooperation (GTZ) GmbH URL [Accessed: 31.05.2019]This presentation exemplifies on how to increase maize production through the application of urine fertiliser.
MORGAN, P. SHANGWA, A. (2009): Using Urine to Increase Maize Production in Schools. The Chisungu Primary School Water and Sanitation project. Stockholm : Ecological Sanitation Research (EcoSanRes), Stockholm Environment Institute (SEI) URL [Accessed: 31.05.2019]Short general description on dehydration toilets.
GTZ (2006): Dehydration Toilets. General Description . (= Technical Data Sheets for Ecosan Components, 02-A ). Eschborn: German Agency for Technical Cooperation (GTZ) GmbH URL [Accessed: 31.05.2019]In Leh, a small town in Jammu and Kashmir, people try to replace traditional sanitation systems by waterborne toilet systems. This project tries to revitalise the traditional ecological sanitation practice that is threatened to fall into oblivion. Different improvements of the traditional Ladhaki toilets are suggested. Due to an extremely dry climate, it is possible to process human excreta indoors without prior diversion of urine, by using a combination of soil composting and dehydration.
DAWA, S. KREUTZER, G. PANESAR, A. (2009): Improved traditional composting toilets with urine diversion, Leh, Jammu and Kashmir State, India - draft. (= SuSanA - Case Studies ). Eschborn: Sustainable Sanitation Alliance (SuSanA) URL [Accessed: 31.05.2019]This case studies reports form the implementation of ecosan toilets in the peri-urban area of Ouagadougou financed by the European Union. The aim of the project was to demonstrate ecosan on an urban level with a centralised collection and treatment facilities and commercialisation of hygienised urine and faeces.
FALL, A. (2009): Urban Urine Diversion Dehydration Toilets and Reuse Ouagadougou Burkina Faso - Draft. (= SuSanA - Case Studies ). Eschborn: Sustainable Sanitation Alliance (SuSanA) URL [Accessed: 31.05.2019]This publication discusses WAND’s experience in promoting ecological sanitation in flooded zones where pour-flush toilets are no longer effective and where people defecate in the open. In this project, promoting a decentralized sanitation system that is cheap, robust, appropriate, and scalable is possible.
SAYRE, E.V. SAYRE, J.C. (2011): Sanitation Solutions for Flooded Zones. The WAND Foundation Experience. London: Water, Agroforestry, Nutrition and Development Foundation (WAND) Inc URL [Accessed: 31.05.2019]Short general and technical description on dehydration toilets without urine diversion.
GTZ (2006): Dehydration Toilets. Dehydration toilets. Dehydration Toilets without Urine-diversion. (= Technical Data Sheets for Ecosan Components, 02-B3 ). Eschborn: German Agency for Technical Cooperation (GTZ) GmbH URL [Accessed: 31.05.2019]This document contains a worldwide list of suppliers for waterless urinals. The tables of suppliers provided here are not complete listings but give only an indication of available products. If you spot errors or omissions, please contact the authors at ecosan@giz.de. In the brackets below each listing the date for provision of the information/last update of information is given. Please be aware that not all information is from 2011. An entry in this list does not imply a recommendation by GIZ. Costs are indicative only.
MUENCH, E., v. WINKER, M. GIZ (2011): Appendix 1 for technology review of urine diversion components. Worldwide listing of suppliers for waterless urinals. (= Technology Review ). Eschborn: Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH URL [Accessed: 31.05.2019]This document gives an introduction about why and how urine can be used in agriculture. It summarises a PhD studies which has been carried out on the evaluation of microbial health risks associated with the reuse of source separated human urine and gives some practical guidelines for urine reuse.
SCHOENNING (n.y): Urine Diversion - Hygienic Risks and Microbial Guidelines for Reuse. Solna: Swedish Institute for Infectious Disease Control (SMI) URL [Accessed: 31.05.2019]This book has been written to help all those involved in planning and implementing emergency sanitation programmes. The main focus is a systematic and structured approach to assessment and programme design. There is a strong emphasis on socio-cultural issues and community participation throughout.Includes an extensive “guidelines” section with rapid assessment instructions and details on programme design, planning and implementation.
HARVEY, P. BAGHRI, S. REED, B. (2002): Emergency Sanitation: Assessment and Programme Design. Loughborough: Water, Engineering and Development Centre (WEDC) URL [Accessed: 31.05.2019]Short general and technical description on single-vault UDDTs with movable containers.
GTZ (2006): Dehydration Toilets. Dehydration Toilet with movable containers . (= Technical Data Sheets for Ecosan Components, 02-B4 ). Eschborn: German Agency for Technical Cooperation (GTZ) GmbH URL [Accessed: 31.05.2019]This manual looks at the broader issues of sanitation, handling of waste, and then examines the sanitation issue and provides some technical detail on construction and design.
UNDP (2005): Sanitation for You and Me – A Post-Tsunami Technical Overview. New Dehli: United Nations Development Program (UNDP) URL [Accessed: 31.05.2019]Paper discussing the hygienic aspects on the reuse of source-separated human urine.
SCHOENNING, C. (2001): Hygienic aspects on the reuse of source-separated human urine. (= NJF Seminar no. 327 ). Solna: Swedish Institute for Infectious Disease Control (SMI) URL [Accessed: 31.05.2019]In this document, you will find more information on the various technical options that meet the requirements for basic sanitation. These need to be considered within all the sustainability requirements, e.g. affordability, operation and maintenance. The options are divided into two categories: Dry non-water reliant on-site systems and wet systems (that do require water for operation).
WAaF (2002): Sanitation Technology Options. Pretoria: Department of Water Affairs and Forestry (WAaF) URL [Accessed: 31.05.2019]The publication explains the purposes of urine diversion, its benefits and challenges, possibilities of urine treatment and reuse in agriculture. It provides an overview on design and operational aspects for equipment needed, such as waterless urinals and urine diversion toilets. An appendix with a worldwide listing of suppliers for waterless urinals and urine diversion toilet pedestals and squatting pans is also available.
MUENCH, E., v. WINKER, M. GTZ (2009): Urine diversion components. Overview of Urine Diversion Components such as Waterless Urinals, Urine Diversion Toilets, Urine Storage and Reuse Systems. (= Technology Review ). Eschborn: German Agency for Technical Cooperation (GTZ) GmbH URL [Accessed: 31.05.2019]After a brief introductory chapter on the Philippine sanitation situation and basic principles of sustainable sanitation, the manual focuses on the introduction of different low-cost sanitation solutions comprising the arborloo toilet, the 1-chamber and 2-chamber UDDT, hanging UDDTs, and the ecopee urinal. Each technology is briefly described by giving general information on how it works, operation and maintenance requirements, reuse or safe disposal options, and in which setting this technology might be appropriate. In addition, a picture-based guide on how to construct each technology is provided as well as the necessary technical drawings and rough cost estimates based on current prices. Since a sanitation system does not end with the toilet itself, the last chapter also provides information on the overall management of the system including collection, transport, treatment, and final reuse of urine, feces and composting products in agriculture.
GENSCH, R. MISO, A. ITCHON, G. SAYRE, E. (2010): Low-Cost Sustainable Sanitation Solutions for Mindanao and the Philippines. A Practical Construction Field Guide. Cagayan de Oro City: Xavier University URL [Accessed: 31.05.2019]This source presents the DEWATS emergency sanitation service package, including options for different types of prefabricated materials, developed by BORDA.
BORDA (2009): EmSan - Emergency Sanitation. An innovative & rapidly installable solution to improve hygiene and health in emergency situations. (= Concept Note ). Bremen: Bremen Overseas Research and Development Association URL [Accessed: 31.05.2019]