Abstract
Cities produce large amounts and very diverse types of waste including wastewater. The quality of these wastes depends on their source, the way in which they are collected and the treatment they receive. The final fate of these wastes is also very diverse. To better understand these systems this chapter provides definitions and reuse typologies and describes common reuse patterns and their driving factors. The chapter also shows that, while the prospects for resource recovery from wastewater and sludge are promising the potential is still largely untapped, except in the informal sector. The resources embedded in the approximately 330 km3/year of municipal wastewater that are globally generated would be theoretically enough to irrigate and fertilize millions of hectares of crops and to produce biogas to supply energy for millions of households. However, only a tiny proportion of these wastes is currently treated, and the portion which is safely reused is significantly smaller than the existing direct and especially indirect use of untreated wastewater, which are posing significant potential health risks. The chapter ends with a call for standardized data collection and reporting efforts across the formal and informal reuse sectors to provide more reliable and updated information on the wastewater and sludge cycles, essential to develop proper diagnosis and effective policies for the safe and productive use of these resources.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abdul-Ghaniyu S, Kranjac-Berisavljevic G, Yakubu IB, Keraita B (2002) Sources and quality of water for urban vegetable production, Tamale, Ghana. Urban Agric Mag 8:10
AQUASTAT (2014) FAO global information system on water and agriculture. Wastewater section. http://www.fao.org/nr/water/aquastat/wastewater/index.stm. Accessed 18 July 2014
Asano T, Burton FL, Leverenz HL, Tsuchihashi R, Tchobanoglous G (2007) Water reuse: issues, technologies, and applications. McGraw-Hill, New York
Asian Development Bank (2012) Promoting beneficial sewage sludge utilization in the People’s Republic of China. Asian Development Bank, Mandaluyong City
Bradford A, Brook R, Hunshal CS (2002) Crop selection and wastewater irrigation, Hubli–Dharwad, India. Urban Agric Mag 8:31–32
Cofie O, Kranjac-Berisavljevic G, Drechsel P (2005) ‘The use of human waste for peri-agriculture in northern Ghana’. Renew Agric Food Syst 20(2):73–80
Drangert J-O (1998) Fighting the urine blindness to provide more sanitation options. Water SA 24(2):157–164
Drechsel P, Graefe S, Sonou M, Cofie OO (2006) Informal irrigation in urban West Africa: an overview. IWMI Research Report 102, International Water Management Institute, Colombo
Ensink JHJ (2006) Water quality and the risk of hookworm infection in Pakistani and Indian sewage farmers [PhD thesis]. London School of Hygiene and Tropical Medicine, University of London, UK
Ensink JHJ, Van der Hoek W, Matsuno Y, Munir S, Aslam MR (2002) Use of untreated wastewater in peri-urban agriculture in Pakistan: risks and opportunities. Research Report 64, International Water Management Institute, Colombo
EUROSTAT (2014) Environment data base. http://epp.eurostat.ec.europa.eu/portal/page/portal/environment/data/database. Accessed 30 June 2014
FAO (2008) Current world fertilizer trends and outlook to 2011/12. Food and Agriculture Organization of the United Nations, Rome
FAO (2012) Crop yield response to water. Irrigation and drainage paper 66. Food and Agriculture Organization of the United Nations, Rome
Faruqui NI, Niang S, Redwood M (2004) Untreated wastewater reuse in market gardens: a case study of Dakar, Senegal. In: Scott CA, Faruqui NI, Raschid-Sally L (eds) Wastewater use in irrigated agriculture: confronting the livelihood and environmental realities. CABI, Wallingford, pp 113–125
Flörke M, Kynast E, Bärlund I, Eisner S, Wimmera F, Alcamo J. (2013) Domestic and industrial water uses of the past 60 years as a mirror of socio-economic development: global simulation study. Glob Environ Change 23(1):144–156
Frinjs J, Hofman J, Nederlof N (2013) The potential of (waste) water as energy carrier. Energy Convers Manage 65(2013):357–363
Global Water Intelligence (GWI) (2009) Municipal water reuse markets 2010. Media Analytics Ltd, Oxford
Global Water Intelligence (GWI) (2014) Global water market 2014. Volume 1. Introduction and the Americas; Media Analytics Ltd. Oxford
Harper, M (2013) The Money in Sludge. China Water Risk Review April 9, 2013. http://chinawaterrisk.org/resources/analysis-reviews/the-money-in-sludg/#sthash.M4VwYFwR.gyxnzSPf.dpuf. Accessed 5 July 2014
Hide J, Hide C, Kimani J (2001) Informal irrigation in the Peri-urban Zone of Nairobi, Kenya: an assessment of surface water quality for irrigation. Report OD/TN. HR Wallingford Ltd, Wallingford
Huibers FP, Moscoso O, Duran A, van Lier JB (2004) The use of wastewater in Cochabamba, Bolivia: a degrading environment. In: Scott CA, Faruqui NI, Raschid-Sally L (eds) Wastewater use in irrigated agriculture. CABI, Wallingford pp 135–144
Hussain I, Raschid L, Hanjra MA, Marikar F, van der Hoek W (2001) A framework for analysing socioeconomic, health and environmental impacts of wastewater use in agriculture in developing countries. Working Paper 26, International Water Management Institute, Colombo
Jimenez B (2008) Water reuse overview for Latin America and Caribbean. Chapter 9. In: Jimenez B, Asano T (eds) Water reuse: an international survey of current practice, issues and needs. IWA, London, pp 648
Jimenez B, Asano T (2008) Water reclamation and reuse around the world. In: Jimenez B, Asano T (eds) Water reuse: an international survey of current practice, issues and needs. IWA, London, pp 1–26
Jimenez B, Drechsel P, Kone D, Bahri A, Rashid-Sally L, Qadir M (2010) Wastewater sludge and excreta use in developing countries: an overview. In: Drechsel P, Scott A Rashid-Sally L, Redwood M, Bahri A (eds) Wastewater irrigation and health: assessing and mitigating risk in low-income countries. Earthscan, London, UK, pp 3–27
Keraita B, Jimenez B, Drechsel P (2008) Extent and implications of agricultural reuse of untreated, partly treated, and diluted wastewater in developing countries. CAB Reviews: perspectives in agriculture, veterinary science, nutrition and natural resources 3(058)
Keraita B, Drechsel P, Klutse A, Cofie O (2014) On-farm treatment options for wastewater, greywater and fecal sludge with special reference to West Africa. Colombo, Sri Lanka: International Water Management Institute (IWMI).CGIAR Research Program on Water, Land and Ecosystems (WLE). 32p. (Resource Recovery and Reuse Series 1).
Kalogo Y, Monteith H (eds) (2012) Energy and resource recovery from sludge. IWA, London, UK
Khoa LV, Duc L, Cu NX, Cuong TT (2005) Research on rural environmental issues in specific ecozones of Vietnam, diagnosis of the directions for their occurrence and suggesting the policies and appropriate control measures. Hanoi University of Science, KC.08.06. (in Vietnamese).
Koné D, Cofie OO, K Nelson (2010) Low-cost options for pathogen reduction and nutrient recovery from fecal sludge. In: Drechsel P, Scott CA, Raschid-Sally L Redwood M, Bahri A (eds) Wastewater irrigation and health: assessing and mitigation risks in low-income countries. Earthscan-IDRC-IWMI, UK, pp 171–188
Kvarnström E, Verhagen J, Nilsson M, Srikantaiah V, Ramachandran S, Singh K (2012) The business of the honey-suckers in Bengaluru (India): the potentials and limitations of commercial fecal sludge recycling—an explorative study. (Occasional Paper 48) [online] The Hague: IRC International Water and Sanitation Centre
Lahnsteiner J, Pisani P, Menge J, Esterhizen J (2013). More than 40 years of direct potable reuse experience in Windohek. In: Lazarova V, Asano T, Bahri A, Anderson J (eds) Milestones in water reuse. The best success stories. IWA, London, pp 351–364
Mateo-Sagasta J, Burke J (2010) Agriculture and water quality interactions: a global overview. SOLAW Background Thematic Report—TR08. Food and Agriculture Organization of the United Nations, Rome
Mateo-Sagasta J, Salian P (2012) Global database on municipal wastewater production, collection, treatment, discharge and direct use in agriculture: AQUASTAT methodological paper. Food and Agriculture Organization of the United Nations. http://www.fao.org/nr/water/aquastat/catalogues/Wastewater_Methodology_paper_20121130.pdf. Accessed 9 Dec 2014
Metcalf, Eddy (eds) (2003) Wastewater engineering—treatment, and reuse, 3rd edn. McGraw Hill, New York
Midmore DJ, Jansen HGP (2003) Supplying vegetables to Asian cities: is there a case for peri-urban production? Food Policy 28:13–27
Mihelcic JR, Fry LM, Shaw R (2011) Global potential of phosphorus recovery from human urine and faeces. Chemosphere 84:832–839
Murray A, Drechsel P (2011) Why do some wastewater treatment facilities work when the majority fail? Case study from the sanitation sector in Ghana. Waterlines 30(2):135–149
Narain S (2012) Excreta matters. State of India’s Environment. A citizens’ report. Centre for Science and Environment (CSE), New Delhi
Oliveira SC, von Sperling M (2008) ‘Reliability analysis of wastewater treatment plants’. Water Res 42(4–5):1182–1194
Raschid-Sally L (2013) City waste for agriculture: emerging priorities which influence agenda setting. Aquat Procedia 1:88–99
Raschid-Sally L, Jayakody P (2008) ‘Drivers and characteristics of wastewater agriculture in developing countries: results from a global assessment’. IWMI Research Report 127, International Water Management Institute, Colombo
Rutkowski T, Raschid-Sally L, Buechler S (2007) Wastewater irrigation in the developing world—two case studies from Katmandu Valley in Nepal. Agric Water Manage 88:83–91
Sato T, M Qadir S Yamamoto T Endo, A Zahoor (2013) Global, regional, and country level need for data on wastewater generation, treatment, and reuse. Agric Water Manage 130:1–13
Scott CA, Faruqui NI, Raschid-Sally L (2004) Wastewater use in irrigation agriculture: management challenges in developing countries. In: Scott CA, Faruqui NI, Raschid-Sally L (eds) Wastewater use in irrigated agriculture confronting the livelihood and environmental realties. CABI-IWMI-IDRC, Wallingford, pp 1–10
Scott C, P Drechsel, L Raschid-Sally, A Bahri, D Mara, M Redwood, B Jiménez (2010) Wastewater irrigation and health: challenges and outlook for mitigating risks in low-income countries. In: Drechsel P, Scott CA, Raschid-Sally L, Redwood M, Bahri A (eds) Wastewater irrigation and health: assessing and mitigation risks in low-income countries. Earthscan-IDRC-IWMI, UK, pp 381–394
Scheierling S M, Bartone C. R, Mara D, Drechsel P. (2011) Towards an agenda for improving wastewater use in agriculture. Water Int 36(4):441–454
Shiklomanov, I., 2000. World water resources and water use: present assessment and outlook for 2025. In: Rijsberman FR (ed) World water scenarios: analyzing global water resources and use. Earthscan Publications, London
Strauss M (2000) Human waste (excreta and wastewater) reuse. Sandec/Eawag http://www.eawag.ch/forschung/sandec/publikationen/wra/dl/human_waste_use_ETC_SIDA_UA.pdf. Accessed 18 July 2014
Strauss M, Drescher S, Zurbrügg C, Montangero A, Cofie O, Drechsel P (2003) Co-composting of fecal sludge and municipal organic waste a literature and state-of-knowledge review. Sandec/Eawag and IWMI, http://www.eawag.ch/forschung/sandec/publikationen/ewm/dl/CCP_FS_orgWaste.pdf. Accessed 18 July 2014
Thebo AL, Drechsel P, Lambin EF (2014). Global Assessment of urban and peri-urban agriculture: irrigated and rainfed croplands. Environmental Research Letters 9 114002. http://iopscience.iop.org/1748-9326/9/11/114002/article. Accessed 9 Dec 2014
United Nations (2012). World population prospects: the 2012 revision. United Nations, Department of Economic and Social Affairs, Population Division, NY
UNEP (2001) Environmentally sound technologies in wastewater treatment for the implementation of the UNEP Global Program of Action (GPA) “Guidance on municipal wastewater”. IETC Technical Publication Series [21] Version 1, 22 November 2001 Osaka/Shiga
UNEP, WHO, UN-Habitat (2014) Monitoring sustainable development goal on water task team on earth observations, novel data collection and data integration. Report on the first meeting, Tokyo: 30–31 May 2014
UN-Habitat (2008) Global Atlas of excreta, wastewater sludge and biosolids management: moving forward the sustainable and welcome uses of a global. United Nations Human Settlements Programme, Nairobi. http://esa.un.org/iys/docs/san_lib_docs/habitat2008.pdf. Accessed 18 July 2014
USAID (2010) A rapid assessment of septage management in asia: policies and practices in India, Indonesia, Malaysia, the Philippines, Sri Lanka, Thailand, and Vietnam. http://pdf.usaid.gov/pdf_docs/PNADS118.pdf. Accessed 9 Dec 2014
Van der Hoek, W. 2004. A framework for a global assessment of the extent of wastewater irrigation: the need for a common wastewater typology. In: Scott CA, Faruqui NI, Raschid-Sally L (eds) Wastewater use in irrigated agriculture: confronting the livelihood and environmental realities. CABI Publishing, IWMI, and IDRC, Wallingford, pp 11–24
Verstraete W, Van de Caveye P, Diamantis V. (2009) Maximum use of resources present in domestic “used water”. Bioresour Technol 100(23):5537–5545
WHO (2006) Guidelines for the safe use of wastewater, greywater and excreta in agriculture and aquaculture. World Health Organization, Geneva
World Energy Council (2013) Energy efficiency indicators. http://www.wec-indicators.enerdata.eu/household-electricity-use.html. Accessed 9 Dec 2014
WSP (2014) The missing link in sanitation service delivery: a review of fecal sludge management in 12 Cities. Water and Sanitation Program of the World Bank
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Mateo-Sagasta, J., Raschid-Sally, L., Thebo, A. (2015). Global Wastewater and Sludge Production, Treatment and Use. In: Drechsel, P., Qadir, M., Wichelns, D. (eds) Wastewater. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-9545-6_2
Download citation
DOI: https://doi.org/10.1007/978-94-017-9545-6_2
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-017-9544-9
Online ISBN: 978-94-017-9545-6
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)