Innovative technologies for decentralised water-, wastewater and biowaste management in urban and peri-urban areas

• Published in: Water Science & Technology Vol. 48; no. 11-12; pp. 23 - 32
• Main Authors: OTTERPOHL, R, BRAUN, U, OLDENBURG, M
• Format: Conference Proceeding Journal Article
• Language: English
• Published: London IWA 01.01.2003; IWA Publishing
• Subjects: Applied sciences; Cities; Conservation of Natural Resources; Dilution; Domestic wastewater; Energy recovery; Exact sciences and technology; Fertilizers; Fresh water; Garbage collection; Germany; Greywater; Households; Membranes, Artificial; Municipal wastes; Municipal wastewater; Nutrients; Other wastewaters; Pollution; Population density; Project feasibility; Sanitation; Small scale technology; System effectiveness; Toilet Facilities; Toilets; Urban and domestic wastes; Urban areas; Urine; Waste Disposal, Fluid - economics; Waste Disposal, Fluid - methods; Wastes; Wastewater treatment; Wastewaters; Water consumption; Water flow; Water Movements; Water Purification - economics; Water Purification - methods; Water treatment; Water treatment and pollution; Germany; Germany, Hamburg
• ISBN: 1843394561; 9781843394563
• ISSN: 0273-1223; 1996-9732
• DOI: 10.2166/wst.2004.0795

Avoiding the comingling of water flows coming from different sources and thus obtaining flows with a very low dilution factor is the first and major step key to technical solutions for adequate treatment of household wastewaters. Through their decentral structure and effective recovery of water, energy and fertiliser these systems can be highly cost efficient. Fresh water consumption can be reduced by up to 80% while nutrients can be recovered to a large extent. Source control is also advantageous for hygienic reasons: low volumes are far easier to sanitise. Source separation technology in municipal waste water treatment does often lead decentralised or semicentral systems. The first essential step is the separate collection and treatment of toilet waste in households, which contains almost all pathogens and nutrients. New toilet systems with very low dilution factors, ranging from vacuum- through urine sorting to dry toilets, have been introduced in several projects and proven feasible. New ideas such as the black- and greywater cycle systems are presently under research at the Technical University Hamburg Harburg. Such modular, integrated and small scale systems are only possible through recent advances in membrane technology and, due to their small scale, do have the potential to be installed in densely populated regions. These technologies are options for following the principles of ecological sanitation, to contain, to sanitise and to reuse also in urban areas (EcoSanRes, 2003).