Executive Summary
A septic tank is a watertight chamber made of brick work, concrete, fibreglass, PVC or plastic, through which blackwater from cistern or pour-flush toilets and greywater through a pipe from inside a building or an outside toilet flows for primary treatment. Settling and anaerobic processes reduce solids and organics, but the treatment is only moderate. Effluent is infiltrated into the ground or transported via a sewer to a (semi-)centralised treatment plant. Accumulating faecal sludge needs to be dug out the chamber regularly and correctly disposed of.
In | Out |
---|---|
Blackwater (settled, Effluent), Faecal Sludge, (Biogas) |
Introduction
The septic tank is the most common small-scale decentralised treatment unit for grey water and blackwater from cistern or pour-flush toilets. It is basically a sedimentation tank. Its shape can be rectangular or cylindrical.
Septic tanks are used for wastewater with a high content of settleable solids, typically for effluent from domestic sources, but they are also suitable for other wastewater of similar properties (SASSE 1998). Liquid flows through the tank and heavy particles sink to the bottom, while scum (mostly oil and grease) floats to the top. Over time, the solids that settle to the bottom are degraded anaerobically. However, the rate of accumulation is faster than the rate of decomposition, and the accumulated sludge and scum must be periodically removed. The effluent of the septic tank must be dispersed by using a Soak Pit , evapo-transpiration mound or Leach Field, or transported to another treatment technology via a Solids-Free Sewer , simplified sewer or solids-free sewer. For secondary treatment e.g. surface flow, horizontal or vertical flow constructed wetlands) are suitable. Sludge must be emptied regularly (see also human-powered or motorized emptying) and treated for safe disposal or reuse. It can be dried in planted or unplanted drying beds, settling or thickening ponds. If the sludge is dried or composted, it can be applied in agriculture as valuable nutrient-rich soil amendment (see also pplication of pit humus and compost or application of sludge). There exist also several new processes to produce fertilizer from sludge.
When septic tanks are used as a primary settling treatment in DEWATS systems, they are generally followed by anaerobic filters, anaerobic baffled reactors ABRs, horizontal, surface flow or vertical flow constructed wetlands (planted gravel filters) and maturation ponds. In any case, water is needed to pour and bring the wastes to the septic tank (5 to 40 L of water per day per person, DFID 2003) .
Generally, the removal of 50% of solids, 30 to 40% of BOD and a 1-log removal of E. coli can be expected in a well-designed and maintained septic tank, although efficiencies vary greatly depending on operation and maintenance and climatic conditions.
Design Considerations
A septic tank should have at least two chambers made out of concrete or brick work . Pre-fabricated concrete rings, PVC or fibreglass septic tanks are also available and may be less expensive in some contexts (WSP 2008). The first chamber should be at least 50% of the total length (SASSE 1998) , and when there are only two chambers, it should be two thirds of the total length. Most of the solids settle out in the first chamber. The baffle, or the separation between the chambers, is to prevent scum and solids from escaping with the effluent. A T-shaped outlet pipe , the lower arm of which dives 30 cm below water level (SASSE 1998), further reduces the scum and solids that are discharged.
Over time, anaerobic bacteria and microorganisms start to digest the settled sludge anaerobically, transforming it into CO2 and CH4 (biogas) and some heat. Optimal physical treatment by sedimentation takes place when the flow is smooth and undisturbed. Biological treatment by anaerobic digestion is optimised by a quick and intensive contact between the new inflow and old sludge, particularly when the flow is turbulent. Depending on the way the new influent flows through the tank, different treatment effect predominate. With a turbulent flow, the degradation of suspended and dissolved solids starts more quickly; however, more suspended solids are discharged with the effluent. This leads to bad odours, as active solids that are not completely fermented leave the tank (SASSE 1998). The contact and hence degradation is slower when the flow is less turbulent, but also less suspended solids leave the tank. The gases produced during anaerobic digestion must be allowed to escape. If the drainage system of the house or other building has a ventilation pipe at the upper end, gases can escape from the septic tank along the drains. If the drainage system is not ventilated, a screened vent pipe should be provided from the septic tank itself (WHO 1992).
Accessibility to all chambers (through access ports) is necessary for maintenance. Septic tanks should be vented for controlled release of odorous and potentially harmful gases.
The design of a septic tank depends on the number of users, the amount of water used per capita, the average annual temperature, the desludging frequency and the characteristics of the wastewater (SASSE 1998) . Normally, the chambers are all of the same depth (between 1.5 to 2.5 m), but sometimes the first chamber is made deeper as the others. Approximately 80 to 100 L should be provided per domestic user (SASSE 1998), but most countries provide a national standard for tank volume per domestic user. For help on dimensioning of septic tank, an exercise is given in Eawag Sandec 2008 and Excel spreadsheets are available in SASSE 1998.
The retention time should be 48 hours to achieve moderate treatment.[no-ecompendium
A septic tank will remove 30 to 50% of BOD (Biological Oxygen Demand), 40 to 60% of TSS (Total Suspended Solids) (UNEP 2004) and result in an abatement of 1 log units E. coli (a faecal indicator bacteria) (TILLEY et al. 2008) although efficiencies vary greatly depending on the influent concentrations and climatic conditions. The retention time should be 48 hours to achieve moderate treatment.
Aquaprivy
A variation of the septic tank is called an Aquaprivy. This is a simple storage and settling tank that is located directly below the toilet so that the excreta fall into it through a pipe. The bottom of the pipe is submerged in a liquid in the tank, forming a water seal to prevent escape of flies, mosquitoes and smell (WHO 1992). The tank functions like a septic tank. The effluent usually infiltrates into the ground through a soak pit and accumulated solids (sludge) must be removed frequently (WHO 1992). In any case, the accumulating sludge must be treated . The Aquaprivy has a low treatment efficiency.
Health Aspects/Acceptance
Under normal operating conditions, users do not come in contact with the influent or effluent. Many of the problems with septic tank systems arise because no adequate consideration is given to the disposal of the tank effluent. Since the effluent from septic tanks is anaerobic, it is likely to contain large numbers of pathogens, which can be a potential source of infection (WHO 1992). Effluent, scum and sludge must be handled with care as they contain high levels of pathogenic organisms. Motorized emptying in a vacuum truck or a manual technology like a sludge gulper can decrease the health risks.
Users should be careful when opening the tank because noxious and flammable gases may be released. Thus, open fire should be avoided when opening the septic tank.
Costs considerations
Construction costs of septic tanks are relatively low compared to other water based systems. However, they are much more expensive than for dry or composting toilets and unlikely to be affordable for poorer people in society. They also require sufficient piped water to flush all the wastes through the drains and manual or mechanical (vacuum or gulper) de-sludging needs to be done periodically. Engineers must prepare design and layout, while unskilled labourers can carry out construction if a mason supervises the work.
Operation & Maintenance
To start up a septic tank it should be "seeded" with sludge from a tank that has been operating for some time to ensure that the necessary microorganisms responsible for anaerobic digestion are present (WHO 1992).
Because of the delicate ecology, care should be taken not to discharge harsh chemicals into the septic tank. Scum and sludge levels need to be monitored to ensure that the tank is functioning well. De-sludging is needed when 1/2 to 2/3 of the total depth between the water level and the bottom of the tank are occupied by sludge and scum (WHO 1992). One of the difficulties with septic tanks is that when the tank is almost full of solids, the inflow scours a channel through the sludge and passes through the tank in a matter of minutes rather than remaining in the tank for the required retention time (SASSE 1998). Generally, septic tanks should be emptied every 2 to 5 years. This is best done by using a Motorized Emptying and Transport technology, but Human-Powered Emptying can also be an option. This is an unpleasant work and care must be taken to ensure that sludge is not spilled around the tank during emptying, as the removed sludge from a septic tank includes fresh sludge and presents a risk of transmission of diseases of faecal origin.
The faecal sludge needs to be dehydrated (see also planted or unplanted drying beds, settling or thickening ponds) and further treated (e.g. small or large scale composting, anaerobic digestion). Before that, the faecal sludge can also be further separated from the liquid in drying beds or settling. The separated effluents from these systems should be treated in waste stabilisation ponds (WSP) or constructed wetlands (surface flow, horizontal or vertical flow). Regular de-sludging activities require well-organised community or public/private service provider.
Septic tanks should be checked from time to time to ensure that they are watertight. Routine inspection is also necessary to remove floating debris such as coarse materials and grease, to ensure that there are no blockages at the inlet or outlet and to check whether de-sludging is needed.
At a Glance
Working Principle | Basically a sedimentation tank (physical treatment) in which settled sludge is stabilised by anaerobic digestion (biological treatment). Dissolved and suspended matter leaves the tank more or less untreated. |
Capacity/Adequacy | Household and community level; Primary treatment for domestic grey- and blackwater. Depending on the following treatment, septic tanks can also be used for industrial wastewater. Not adapted for areas with high groundwater table or prone to flooding. |
Performance | BOD: 30 to 50%; TSS: 40 to 60 %; E. coli: 1 log units |
Costs | Low-cost, depending on availability of materials and frequency of de-sludging. |
Self-help Compatibility | Requires expert design, but can be constructed with locally available material. |
O&M | Should be checked for water tightness, scum and sludge levels regularly. Sludge needs to be dug out every 1 to 5 years and discharged properly (e.g. in composting or drying bed). Needs to be vented. |
Reliability | When not regularly emptied, wastewater flows through without being treated. Generally good resistance to shock loading. |
Main strength | Simple to construct and to operate. |
Main weakness | Effluent and sludge require further treatment. Long start-up phase. |
This technology is most commonly applied at the household level. Larger, multi-chamber septic tanks can be designed for groups of houses and/or public buildings (e.g., schools).
A septic tank is appropriate where there is a way of dispersing or transporting the effluent. Effluents form septic tanks can be soil infiltrated in soak pits, a leach field or mounds. Effluents still contain pathogens and should therefore not be used for crop irrigation nor should it be discharged to canals or surface water drains (WHO 1992). If septic tanks are used in densely populated areas, onsite infiltration should not be used, otherwise, the ground will become oversaturated and contaminated, and wastewater may rise up to the surface, posing a serious health risk. Instead, the septic tanks should be connected to some type of Conveyance technology (e.g. simplified sewer or solids-free sewer) , through which the effluent is transported to a subsequent Treatment or Disposal site (e.g. surface flow, horizontal or vertical flow constructed wetlands) . Even though septic tanks are watertight, it is not recommended to construct them in areas with high groundwater tables or where there is frequent flooding.
Because the septic tank must be regularly desludged, a vacuum truck should be able to access the location. Often, septic tanks are installed in the home, under the kitchen or bathroom, which makes emptying difficult.
Septic tanks can be installed in every type of climate, although the efficiency will be lower in colder climates. They are not efficient at removing nutrients and pathogens.
Even though the septic tank is watertight, it should not be constructed in areas with high groundwater tables or where there is frequent flooding (TILLEY et al. 2008).
Aquaprivies can be built indoors and above ground and are appropriate for rocky or flood prone areas where pits or other technologies would not be appropriate, but they require frequent emptying and constant maintenance (TILLEY et al. 2008).
Small and Decentralized Wastewater Management Systems
Decentralised wastewater management presents a comprehensive approach to the design of both conventional and innovative systems for the treatment and disposal of wastewater or the reuse of treaded effluent. Smaller treatment plants, which are the concern of most new engineers, are the primary focus of this book.
CRITES, R. TCHOBANOGLOUS, G. (1998): Small and Decentralized Wastewater Management Systems. New York: The McGraw-Hill Companies IncHandbook for the Assessment of Catchment Waster Demand and Use
Sanitation Systems and Technologies. Exercises: Septic Tank
Exercise on the dimensioning of a septic tank.
EAWAG/SANDEC (2008): Sanitation Systems and Technologies. Exercises: Septic Tank. (= Sandec Training Tool 1.0, Exercises ). Duebendorf: Swiss Federal Institute of Aquatic Science (Eawag), Department of Water and Sanitation in Developing Countries (Sandec)Low-cost Urban Sanitation
This book covers the public health, technical, socioeconomic, sociocultural and institutional aspects of sanitation in towns and cities of developing countries. The text features excreta-related diseases and the use of sanitation to reduce their transmission. The sanitation technologies covered in detail are VIP latrines, pour-flush toilets, septic tanks, settled sewerage and simplified sewerage, with additional chapters on sullage disposal, pit emptying, and sewage treatment and reuse. Sociocultural constraints on sanitation systems and their socioeconomic costing are described, together with hygiene education, which is essential in order to achieve maximum benefits to health. The text also explains how to choose the most appropriate sanitation option for a given low-income community. Finally, institutional aspects are reviewed, including effective sanitation programme planning, monitoring and evaluation.
MARA, D. (1996): Low-cost Urban Sanitation. United Kingdom: WileyGreywater Management in Low and Middle-Income Countries, Review of Different Treatment Systems for Households or Neighbourhoods
This report compiles international experience in greywater management on household and neighbourhood level in low and middle-income countries. The documented systems, which vary significantly in terms of complexity, performance and costs, range from simple systems for single-house applications (e.g. local infiltration or garden irrigation) to rather complex treatment trains for neighbourhoods (e.g. series of vertical and horizontal-flow planted soil filters).
MOREL, A. DIENER, S. (2006): Greywater Management in Low and Middle-Income Countries, Review of Different Treatment Systems for Households or Neighbourhoods. (= SANDEC Report No. 14/06 ). Duebendorf: Swiss Federal Institute of Aquatic Science (EAWAG), Department of Water and Sanitation in Developing Countries (SANDEC) URL [Accessed: 27.05.2019]Septic Tank Guidelines
This document on septic tanks gives guidelines on how to design and make a system.
OXFAM (2008): Septic Tank Guidelines. (= Technical Brief ). Oxford: OXFAM URL [Accessed: 08.04.2014]Septic Tank and Septic Systems
This paper presents a review on the septic tank and septic systems. Information on design and functional aspects, and environmental effects of septic tank systems are presented.
POLPRASERT, C. RAJPUT, V.S. (1982): Septic Tank and Septic Systems. (= Environmental Sanitation Reviews , 7 ). Bangkok: Environmental Sanitation Information Center URL [Accessed: 08.04.2014]Informed Choice Catalogue
This informed choice catalogue for community based wastewater treatment technologies helps to identify suitable sanitation options and facilitates the assessment of different sanitation system components with regard to stakeholder preferences. A powerful tool for technical bottom-up planning giving overall information about technical options at a "glance".
SANIMAS (2005): Informed Choice Catalogue. pdf presentation. BORDA and USAID URL [Accessed: 29.05.2019]DEWATS
Exhaustive report on technological, operational and economic aspects of decentralised waste water treatment systems. Spreadsheet examples support the reader in designing and planning waste water treatment systems components.
SASSE, L. BORDA (1998): DEWATS. Decentralised Wastewater Treatment in Developing Countries. Bremen: Bremen Overseas Research and Development Association (BORDA) URL [Accessed: 03.06.2019]Compendium of Sanitation Systems and Technologies. 2nd Revised Edition
This compendium gives a systematic overview on different sanitation systems and technologies and describes a wide range of available low-cost sanitation technologies.
TILLEY, E., ULRICH L., LÜTHI, C., REYMOND P. and ZURBRÜGG C. (2014): Compendium of Sanitation Systems and Technologies. 2nd Revised Edition. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (Eawag) URL [Accessed: 03.05.2023] PDFCompendium of Sanitation Systems and Technologies
This compendium gives a systematic overview on different sanitation systems and technologies and describes a wide range of available low-cost sanitation technologies.
TILLEY, E., LUETHI, C., MOREL, A., ZURBRUEGG, C. and SCHERTENLEIB, R. (2008): Compendium of Sanitation Systems and Technologies. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (EAWAG) and Water Supply and Sanitation Collaborative Council (WSSCC) URL [Accessed: 15.02.2010] PDFWastewater Education Materials
Planning for Septic Systems - Use of Online Decentralized Systems in Developing Areas
Septic Tank as a Primary Treatment
Improving Municipal Wastewater Management in Coastal Cities
Sanitation Technology Options
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]A Guide to the Development of On-site Sanitation
The publication presents appropriate technologies for sanitation and highlights socio-economic aspects of planning and implementing. Emphasis is given to household-level sanitation improvements for urban areas, as well as rural areas and small communities. Background information on sanitation, in-depth technical information on the design, construction, operation and maintenance and project planning and development processes involved in projects and programmes complement the book.
WHO (1992): A Guide to the Development of On-site Sanitation. Geneva: World Health Organisation (WHO) URL [Accessed: 14.04.2010]Technology Options for Urban Sanitation in India. A Guide to Decision-Making
These guidance notes are designed to provide state governments and urban local bodies with additional information on available technologies on sanitation. The notes also aid in making an informed choice and explain the suitability of approaches.
WSP (2008): Technology Options for Urban Sanitation in India. A Guide to Decision-Making. pdf presentation. New Delhi: Water and Sanitation Program (WSP) URL [Accessed: 03.06.2019]Compendium of Sanitation Systems and Technologies (Arabic)
This is the Arabic version of the Compendium of Sanitation Systems and Technologies. The Compendium gives a systematic overview on different sanitation systems and technologies and describes a wide range of available low-cost sanitation technologies.
TILLEY, E. ULRICH, L. LUETHI, C. REYMOND, P. SCHERTENLEIB, R. ZURBRUEGG, C. (2014): Compendium of Sanitation Systems and Technologies (Arabic). 2nd Revised Edition. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (Eawag) PDFA Homeowner's Guide to Septic Systems
This manual provides information on functionality of septic systems containing the modules septic tank and leach field and addresses the user at the household level. Construction, maintenance and operation are described.
IDAHO DEQ (2001): A Homeowner's Guide to Septic Systems. Boise: Idaho Department of Environmental Quality (IDAHO DEQ) URL [Accessed: 04.05.2010]Faecal Sludge Management.
This issue presents studies from different regions (Bangladesh, Cameroon, Burkina Faso) that mainly show the non-existence of faecal sludge management. Additionally, the last paper describes a new technological solution (LaDePa) for producing hygienically safe organic fertiliser from sludge from ventilated improved pit toilets (VIPs).
ECOSAN CLUB (2012): Faecal Sludge Management.. (= Sustainable Sanitation Practice , 13 ). Vienna: Ecosan Club URL [Accessed: 16.10.2012]Decentralised Wastewater Treatment Methods for Developing Countries
Different operation and maintenance options are presented with respect to sustainable plant operation, the use of local resources, knowledge, and manpower.
NATURGERECHTE TECHNOLOGIEN, BAU- UND WIRTSCHAFTSBERATUNG (TBW) GmbH (2001): Decentralised Wastewater Treatment Methods for Developing Countries. GTZ and GATESeptic Tank Guidelines
This document on septic tanks gives guidelines on how to design and make a system.
OXFAM (2008): Septic Tank Guidelines. (= Technical Brief ). Oxford: OXFAM URL [Accessed: 08.04.2014]A Guide to the Development of On-site Sanitation
The publication presents appropriate technologies for sanitation and highlights socio-economic aspects of planning and implementing. Emphasis is given to household-level sanitation improvements for urban areas, as well as rural areas and small communities. Background information on sanitation, in-depth technical information on the design, construction, operation and maintenance and project planning and development processes involved in projects and programmes complement the book.
WHO (1992): A Guide to the Development of On-site Sanitation. Geneva: World Health Organisation (WHO) URL [Accessed: 14.04.2010]Onsite Wastewater Treatment Systems Manual
Rather old design manual for onsite wastewater treatment options. However, valuable information on established systems such as septic tanks, sand filters, aerobic treatment units (suspended growth and fixed film), disinfection, nutrient removal as well as wastewater segregation and recycling are given. Additional information is given on disposal methods and appurtenances.
U.S.EPA (1980): Onsite Wastewater Treatment Systems Manual. (= EPA 625/1-80 , 12 ). United States Environmental Protection Agency, Office of Water Office of Research and DevelopmentEnvironmentally sound technologies in wastewater treatment for the implementation of the UNEP/GPA "Guidelines on Municipal Wastewater Management"
Technical information on environmentally sound technologies in wastewater treatment.
UNEP ; MURDOCH UNIVERSITY (2004): Environmentally sound technologies in wastewater treatment for the implementation of the UNEP/GPA "Guidelines on Municipal Wastewater Management". The Hague: United Nations Environment Programme Global Programme of Action (UNEP/GPA), Coordination OfficePhilippines Sanitation Source Book and Decision Aid
This Sanitation Sourcebook distils some of the core concepts of sanitation in a user-friendly format so that the book can serve as a practical reference to sanitation professionals and investment decision-makers, particularly the local governments. The annexe contains a practical collection of factsheets on selected sanitation system options.
WSP (2007): Philippines Sanitation Source Book and Decision Aid. pdf presentation. Washington: Water and Sanitation Program (WSP). URL [Accessed: 01.06.2019]Technology Options for Urban Sanitation in India. A Guide to Decision-Making
These guidance notes are designed to provide state governments and urban local bodies with additional information on available technologies on sanitation. The notes also aid in making an informed choice and explain the suitability of approaches.
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The purpose of this guide is to assist local contracting authorities and their partners in identifying those sanitation technologies best suited to the different contexts that exist within their town. The first part of the guide contains a planning process and a set of criteria to be completed; these assist you in characterizing each area of intervention so that you are then in a position to identify the most appropriate technical solutions. The second part of the guide consists of technical factsheets which give a practical overview of the technical and economic characteristics, the operating principle and the pros and cons of the 29 sanitation technology options most commonly used in sub-Saharan Africa.
MONVOIS, J. GABERT, J. FRENOUX, C. GUILLAUME, M. (2010): How to Select Appropriate Technical Solutions for Sanitation. (= Six Methodological Guides for a Water and Sanitation Services' Development Strategy , 4 ). Cotonou and Paris: Partenariat pour le Développement Municipal (PDM) and Programme Solidarité Eau (pS-Eau) URL [Accessed: 19.10.2011]Anaerobic Reactors
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LEMOS CHERNICHARO, C.A. de (2007): Anaerobic Reactors. (= Biological Wastewater Treatment Series , 4 ). London: International Water Association (IWA) Publishing. [Accessed: 01.11.2013]Biological Wastewater Treatment in Warm Climate Regions Volume 1
Biological Wastewater Treatment in Warm Climate Regions gives a state-of-the-art presentation of the science and technology of biological wastewater treatment, particularly domestic sewage. The book covers the main treatment processes used worldwide with wastewater treatment in warm climate regions given a particular emphasis where simple, affordable and sustainable solutions are required. The 55 chapters are divided into 7 parts over two volumes: Volume One: (1) Introduction to wastewater characteristics, treatment and disposal; (2) Basic principles of wastewater treatment; (3) Stabilisation ponds; (4) Anaerobic reactors; Volume Two (also available in the SSWM library): (5) Activated sludge; (6) Aerobic biofilm reactors; (7) Sludge treatment and disposal.
SPERLING, M. von LEMOS CHERNICHARO, C.A. de (2005): Biological Wastewater Treatment in Warm Climate Regions Volume 1. London: International Water Association (IWA) Publishing URL [Accessed: 26.05.2019]Compendium of Sanitation Systems and Technologies. 2nd Revised Edition
This compendium gives a systematic overview on different sanitation systems and technologies and describes a wide range of available low-cost sanitation technologies.
TILLEY, E., ULRICH L., LÜTHI, C., REYMOND P. and ZURBRÜGG C. (2014): Compendium of Sanitation Systems and Technologies. 2nd Revised Edition. Duebendorf, Switzerland: Swiss Federal Institute of Aquatic Science and Technology (Eawag) URL [Accessed: 03.05.2023] PDFGreywater treatment systems for hotel premises, Sri Lanka
This case study presents different cost-effective on-site treatment technologies with main focus on hotel greywater and blackwater treatment systems. The first greywater treatment plant was constructed for the Swiss Residence Hotel. Based on the experience gained by the Swiss Residence Hotel, further systems were implemented at the hotels Ivy Banks and Coral Sands.
MOREL, A. DIENER, S. (2006): Greywater treatment systems for hotel premises, Sri Lanka. In: MOREL, A. ; DIENER, S. ; (2006): Greywater Management in Low and Middle-Income Countries, Review of Different Treatment Systems for Households or Neighbourhoods. Duebendorf: 80-84.Opportunities in Fecal Sludge Management for Cities in Developing Countries: Experiences from the Philippines
In July 2012, a team from RTI International deployed to the Philippines to evaluate four FSM programs with the goal of reporting on best practices and lessons learned. The four cases—Dumaguete City, San Fernando City, Maynilad Water for the west zone of metro Manila, and Manila Water from the east zone of metro Manila—were chosen to highlight their different approaches to implementing FSM.
ROBBINS, D. STRANDE, L. DOCZI, J. (2012): Opportunities in Fecal Sludge Management for Cities in Developing Countries: Experiences from the Philippines. North Carolina: RTI International URL [Accessed: 10.06.2019]Sanitation Systems and Technologies. Exercises: Septic Tank
Exercise on the dimensioning of a septic tank.
EAWAG/SANDEC (2008): Sanitation Systems and Technologies. Exercises: Septic Tank. (= Sandec Training Tool 1.0, Exercises ). Duebendorf: Swiss Federal Institute of Aquatic Science (Eawag), Department of Water and Sanitation in Developing Countries (Sandec)Sanitation Systems and Technologies. Lecture Notes
Lecture notes on technical and non-technical aspects of sanitation systems in developing countries.
EAWAG/SANDEC (2008): Sanitation Systems and Technologies. Lecture Notes . (= Sandec Training Tool 1.0, Module 4 ). Duebendorf: Swiss Federal Institute of Aquatic Science (EAWAG), Department of Water and Sanitation in Developing Countries (SANDEC)Sanitation Systems and Technologies. Presentation
PDF presentation on the technical and non-technical aspects of sanitation systems in developing countries.
EAWAG/SANDEC (2008): Sanitation Systems and Technologies. Presentation. (= Sandec Training Tool 1.0, Module 4 ). Duebendorf: Swiss Federal Institute of Aquatic Science (Eawag), Department of Water and Sanitation in Developing Countries (Sandec)Sanitation Technology Options
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]It's Your Choice: A Guidebook for Local Officials on Small Community Wastewater Management Options
This booklet was prepared by the United States Environmental Protection Agency U.S. EPA for officials from communities of less than 10000 people to present them available options and thus to enable an informed choice.
U.S. EPA (1987): It's Your Choice: A Guidebook for Local Officials on Small Community Wastewater Management Options . (= EPA/430-87-006 ). United States Environmental Protection Agency, Office of Water Office of Research and DevelopmentDecentralized Systems Technology Fact Sheet - Septic System Tanks
Four-page factsheet by the United States Environmental Protection Agency (U.S. EPA), describing septic tanks, their applicability and the design of septic tank systems for household-level black and greywater treatment.
U.S. EPA (2000): Decentralized Systems Technology Fact Sheet - Septic System Tanks. (= EPA 832-F-00 , 40 ). Washington, D.C.: United States Environmental Protection Agency, Office of Water Office of Research and Development (US EPA) URL [Accessed: 15.04.2010]Decentralized Systems Technology Fact Sheet - Septic Tank Leaching Chamber
Seven-page factsheet by the United States Environmental Protection Agency (U.S. EPA), describing the system, its applicability and the design of a leaching field following a septic tank.
U.S. EPA (2000): Decentralized Systems Technology Fact Sheet - Septic Tank Leaching Chamber. (= EPA 832-F-00 , 44 ). Washington, D.C.: United States Environmental Protection Agency, Office of Water Office of Research and Development. URL [Accessed: 15.04.2010]Decentralized Systems Technology Fact Sheet: Septic Tank Systems for Large Flow Application
Ten-page factsheet by the United States Environmental Protection Agency (U.S. EPA), describing the system, its applicability and design of a septic tanks for large-flow applications.
U.S. EPA (2000): Decentralized Systems Technology Fact Sheet: Septic Tank Systems for Large Flow Application. (= EPA 832-F-00 , 79 ). Washington, D.C.: United States Environmental Protection Agency, Office of Water Office of Research and Development. URL [Accessed: 15.04.2010]Homeowner's Guide to Septic Systems
Booklet that describes how a septic system works and what homeowners can do to help their systems treat wastewater effectively.
U.S. EPA (2002): Homeowner's Guide to Septic Systems. (= EPA 832-B-02 , 5 ). United States Environmental Protection Agency, Office of Water Office of Research and Development. URL [Accessed: 15.04.2010]http://water.epa.gov/infrastructure/septic/
This site offers valuable information and resources to manage onsite wastewater systems in a manner that is protective of public health and the environment and allows communities to grow and prosper.