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{{Short description|Discharge of untreated sewage}}
{{distinguish|Combined sewer overflow}}
[[File:Sewer overflow RI EPA.jpg|thumb|right|A '''Sanitary sewer overflow''' ('''SSO''') is a condition in which untreated [[sewage]] is discharged from a [[sanitary sewer]] into the environment prior to reaching [[sewage treatment]] facilities. When caused by rainfall it is also known as '''wet weather overflow'''.
SSOs can cause [[gastrointestinal illness]]es ([[waterborne diseases]]), beach closures and restrictions on fish and [[shellfish]] consumption.
▲'''Sanitary sewer overflow''' ('''SSO''') is a condition in which untreated [[sewage]] is discharged from a [[sanitary sewer]] into the environment prior to reaching [[sewage treatment]] facilities. When caused by rainfall it is also known as '''wet weather overflow'''. It is primarily meaningful in [[developed countries]], which have extensive treatment facilities. Frequent causes of SSO spills include:
== United States ==
The [[U.S. Environmental Protection Agency]] (EPA) estimates that at least 23,000 to 75,000 SSO events occur in the United States each year.<ref>{{cite web |url=https://www.epa.gov/npdes/sanitary-sewer-overflows-ssos |title=Sanitary Sewer Overflows |author=<!--Staff writer(s); no by-line.--> |date=2015-11-16 |access-date=2023-02-17 |website=National Pollutant Discharge Elimination System |publisher=U.S. Environmental Protection Agency (EPA) |___location=Washington, D.C.}}</ref> EPA estimated that upgrading every municipal treatment and collection system to reduce the frequency of overflow events to no more than once every five years would cost about $88 billion as of 2004.<ref name="EPA-RTC">{{cite report |date=August 2004 |title=Report to Congress: Impacts and Control of CSOs and SSOs |url=https://www.epa.gov/npdes/2004-npdes-cso-report-congress |access-date=2023-02-17 |publisher=EPA |id=EPA-833-R-04-001}}</ref> This cost would be in addition to approximately $10 billion already invested. Although the volume of untreated sewage discharged to the environment is less than 0.01 percent of all treated sewage in the United States, the total volume amounts to several billion gallons per annum and accounts for thousands of cases of gastrointestinal illness each year.<ref name="EPA-RTC" />{{rp|Ch. 6}}
== Worldwide perspective ==▼
In many countries there are obligations to measure and report SSO occurrence using real-time [[telemetry]] to warn the public, bathers and shellfishery operators.▼
Developed European countries and Japan have similar or somewhat larger percentages of SSO events compared to the U.S.{{citation needed|date=June 2015}}
In [[developing countries]], most wastewater is still not treated
The concept of SSO containment valves has been pioneered in the UK and they are installed to mitigate dry spills, by correlating rainfall data with SSO spill activity.▼
▲In many countries there are obligations to measure and report SSO occurrence using real-time [[telemetry]] to warn the public, bathers and shellfishery operators.{{citation needed|date=June 2016}}
== Causes ==
===Engineering aspects=== [[Image:Aparissewer.jpg|thumb|230px|Sanitary sewer line in [[Paris]] more than two meters in diameter.]]
Sewers that were built in the early stages of urbanization were usually built before [[sewage treatment]] was
===Blockages===
▲Sewers were built before sewage treatment was practiced. Early sewers were drainage systems to remove surface runoff with any waste material it might contain. These drainage systems became [[combined sewers]] when sewage from kitchens, baths, and toilets was added; and the discharge became offensive. Early sewage treatment plants were built to treat the offensive sewage during dry weather; but it was infeasible to treat the larger volume of mixed sewage and precipitation runoff from combined sewers during wet weather. Sanitary sewers were built to keep sewage from being mixed with surface runoff so the sewage could be efficiently treated during both wet and dry weather.<ref>{{cite book |last=Okun |first=Daniel A. |authorlink = |title =Sewage Treatment Plant Design |publisher =[[American Society of Civil Engineers]] and Water Pollution Control Federation |volume = |edition = |date =1959 |___location = |page =6 |isbn =}}</ref>
Decentralized failures in dry weather mainly occur from collection sewer line blockages, which can arise from a [[debris]] clog or tree root intrusion into the line itself. Approximately half of SSOs in the United States are caused by blockage.<ref name="
Many U.S. municipalities require restaurants and food processing businesses to use [[grease interceptor]]s and regulate the disposal of fats, oil and grease in the sewer system.<ref>For example, the [[Washington Suburban Sanitary Commission]] (WSSC) in Maryland, U.S.: {{cite web |title=Fats, Oils, & Grease |url=https://www.wsscwater.com/fog |website=Special Wastewater Discharge Requirements |date=2023-12-29 |publisher=WSSC |___location=Laurel, MD}}</ref>
One of the main problems of a decentralized line failure is the difficulty of defining the ___location of overflow, since a typical urban system contains thousands of miles of collection pipes, and the central treatment plant has no way of communicating with all the lines, unless expensive monitoring equipment has been installed. Companies in the UK have widely deployed bulk dielectric
▲Decentralized failures in dry weather mainly occur from collection sewer line blockages, which can arise from a [[debris]] clog or tree root intrusion into the line itself. Approximately half of SSOs in the United States are caused by blockage.<ref name="EPARTC"/>{{rp|p. 4–26}} [[Brown grease|Grease]] is the blocking agent in approximately half of United States SSOs attributed to blockage, and solid debris is the blocking agent for another 25 percent. [[Root]]s are a contributing factor in approximately one-quarter of United States SSOs attributed to blockage. Grease deposits are caused by cooking fats liquified with hot water for discharge to sanitary sewers. These fats congeal as solid deposits in the cooler sewer. Solid debris includes soiled clothing, [[diaper]]s, and [[sanitary napkin]]s flushed into toilets. <ref name="EPARTC"/>{{rp|p. 4–28}}
Dry weather blockage is less likely within combined sewers; because combined sewers designed for the additional volume of surface runoff are
▲One of the main problems of a decentralized line failure is the difficulty of defining the ___location of overflow, since a typical urban system contains thousands of miles of collection pipes, and the central treatment plant has no way of communicating with all the lines, unless expensive monitoring equipment has been installed. Companies in the UK have widely deployed bulk dielectric transducers suspended in the sewers to detect high levels and to report the events back over fixed wireless data networks. In certain locations it has been said that this practice has permitted the reduction of pollution events by up to 60%.
===Infiltration/inflow===▼
▲Dry weather blockage is less likely within combined sewers; because combined sewers designed for the additional volume of surface runoff are so much larger than sanitary sewers. Combined sewer storm water regulators may be vulnerable to blockage by debris, but overflow from such blockage typically enters the diversion [[outfall]] to avoid flooding private or public property.
Approximately one-quarter of United States SSOs occur during heavy [[rainfall]] events, which can cause inflow of [[stormwater]] into sanitary sewers through damage, improper connections, or flooding buildings and [[lift
===Malfunctions===
▲==Infiltration/inflow==
Another mode of system failure can include [[power outage]]s, which may disable [[lift station]] pumps and cause sewage overflow from the lift station wet well. Lift station mechanical or power failure causes approximately ten percent of United States SSOs. This type of discharge is uncommon from combined sewers, because the combined volume of sewage and storm water discourages use of lift stations. Broken sewer lines are responsible for approximately ten percent of
Power failure, [[human error]], or mechanical failure may cause similar discharge of untreated or partially treated sewage from a sewage treatment plant; but this is typically regarded as a sewage treatment plant malfunction rather than a sanitary sewer overflow.
▲Approximately one-quarter of United States SSOs occur during heavy [[rainfall]] events, which can cause inflow of [[stormwater]] into sanitary sewers through damage, improper connections, or flooding buildings and lift stations in low-lying areas of the collection system. The combined flow of sewage and stormwater exceeds the capacity of the sanitary sewer system and sewage is released into homes, businesses and streets.<ref name="EPARTC"/>{{rp|p. 4–26}} This circumstance is most prevalent in older cities whose subsurface infrastructure is quite old; [[Paris]], [[London]], [[Stockholm]],<ref>Monica Spendilow, ''Impeller Magazine'', ITT Flygt AB, SE-174 87 Sundbyberg, Sweden (2004)</ref> [[New York]], [[Washington, DC]], and [[Oakland, California]]<ref>''Environmental Impact Statement for the [[East Bay Municipal Utility District]] Wet Weather Overflow Project'', Earth Metrics Incorporated, prepared for the U.S. EPA and East Bay Municipal Utility District, Oakland, Ca. (1985)</ref> are typical examples of such locations. Inflow into the sanitary lines can be caused by tree root rupture of subsurface lines or by mechanical fracture due to age and overpressure from trucks and buildings above.
==Human health and ecological consequences==▼
Human health impacts include significant numbers of [[gastrointestinal illness]]
==Mitigation techniques==
▲Another mode of system failure can include [[power outage]]s, which may disable lift station pumps and cause sewage overflow from the lift station wet well. Lift station mechanical or power failure causes approximately ten percent of United States SSOs. This type of discharge is uncommon from combined sewers, because the combined volume of sewage and storm water discourages use of lift stations. Broken sewer lines are responsible for approximately ten percent of United States SSOs.<ref name="EPARTC"/>{{rp|p. 4–27}}
{{Further|Combined sewer#Mitigation of CSOs}}
▲The concept of SSO containment valves has been pioneered in the UK and they are installed to mitigate dry spills, by correlating rainfall data with SSO spill activity.{{citation needed|date=June 2016}}
==History==▼
▲Power failure, [[human error]], or mechanical failure may cause similar discharge of untreated or partially treated sewage from a sewage treatment plant; but this is typically regarded as a sewage treatment plant malfunction rather than a sanitary sewer overflow. Sewage treatment plants may be designed to capture overflow from malfunctioning units and discharge it to alternative treatment facilities. Flooding of private or public property is typically avoided by discharging the overflow to an outfall designed for discharge of treated sewage.<ref name="EPARTC">U.S. Environmental Protection Agency (EPA), Washington, D.C. (2004).[http://cfpub.epa.gov/npdes/cso/cpolicy_report2004.cfm "Report to Congress: Impacts and Control of CSOs and SSOs."] August 2004. Document No. EPA-833-R-04-001.</ref>{{rp|p. ES–3}}
[[Image:Wonga wetlands sewage plant.jpg|thumb|250px
Since medieval times rulers have been aware of the impact of raw sewage improperly discharged to the environment. Before treatment systems existed in 16th century [[England]], [[Henry VIII of England|King Henry VIII]] decreed that sewage troughs should be kept flowing so that they would not stagnate in [[London]] prior to reaching the [[River Thames]] ([[London sewer system]]).{{citation needed|date=June 2016}}
In the 19th century, sewage treatment plants were first developed and installed in the U.S. and parts of Europe, and the concept of SSO was identified. SSOs were not recognized as a widespread environmental problem until the rise of environmental awareness in the 1960s. Around that time government agencies in the U.S. began identifying locations and frequencies of SSOs in a systematic way. Local governments heard complaints of citizens, and beach closure protocols were systematised to reduce risks to public health.
▲==Human health and ecological consequences==
▲[[Image:Overflowepa.gif|thumb|230px|left|Decentralized wet weather overflow event]]
After passage of the [[Clean Water Act]] in 1972, the U.S. spent billions of dollars on upgrades to sewage treatment plants, with some associated repairs and improvements to the associated collection systems, where the overflows occur. EPA continues to provide funding for low-interest loans to communities for addressing SSO problems, through the [[Clean Water State Revolving Fund]].<ref>{{cite web |url=https://www.epa.gov/npdes/sanitary-sewer-overflow-sso-frequent-questions |title=Sanitary Sewer Overflow (SSO) Frequent Questions |author=<!--Staff writer(s); no by-line.--> |date=2015-11-16 |access-date= |publisher=EPA}}</ref>
▲Human health impacts include significant numbers of [[gastrointestinal]] illness each year, although death from one overflow event is uncommon. Additional human impacts include [[beach]] closures, [[human swimming|swimming]] restrictions and prohibition of the consumption of certain aquatic animals (particularly certain [[mollusc]]s) after overflow events. Ecological consequences include [[fish kill]]s, harm to [[plankton]] and other aquatic microflora and microfauna. Turbidity increase and dissolved oxygen decrease in receiving waters can lead to accentuated effects beyond the obvious [[pathogen]]ic induced damage to aquatic [[ecosystem]]s. It is possible that higher life forms such as [[marine mammal]]s can be affected since certain seals and [[sea lion]]s are known to experience peaks in pathogenic harm.<ref>Johnson, S. P., Jang, S., Gulland, F.M.D., Miller, M., Casper, D., Lawrence, J., Herrera, J., [http://www.jwildlifedis.org/cgi/reprint/39/1/136.pdf "Characterization and clinical manifestations of Arcanobacterium phocae infections in marine mammals stranded along the central California coast"], ''Journal of Wildlife Diseases'', 39:136-144 (2003).</ref>
In the 1990s [[Japan]], the [[UK]] and a number of other European countries began earnest investigation of some of their countries’ overflow issues.{{citation needed|date=June 2016}}
▲==Worldwide perspective==
▲In [[developing countries]], most wastewater is still not treated properly but discharged into the environment. Even a country such as the [[People's Republic of China]] discharged in 2001 about 55 percent of all sewage without treatment of any type.<ref>"[[World Bank]] Supports China's Wastewater Treatment", ''The People’s Daily'', November 30, 2001, Beijing</ref> In a relatively developed [[Middle East]]ern country such as [[Iran]], the majority of [[Tehran]]'s population has totally untreated sewage injected to the city’s groundwater.<ref>Massoud Tajrishy and Ahmad Abrishamchi, "Integrated Approach to Water and Wastewater Management for [[Tehran]], [[Iran]]", [[Water Conservation]], Reuse, and Recycling: Proceedings of the Iranian-American Workshop, National Academies Press (2005)</ref> In [[Venezuela]], a below-average country in [[South America]] with respect to wastewater treatment, 97 percent of the country’s [[sewage]] is discharged untreated into the environment.<ref>Appropriate Technology for Sewage Pollution Control in the Wider [[Caribbean]] Region, Caribbean Environment Programme Technical Report #40 1998</ref>
▲==History==
▲[[Image:Wonga wetlands sewage plant.jpg|thumb|250px|left|[[Sewage treatment plant]] used to create the Wonga Wetlands, [[Australia]]]]
==See also==
* [[Fatberg]] (sewer blockage)
* [[Water pollution]]
== References==
{{Reflist|2}}
==External links==
*[https://www.epa.gov/npdes/sanitary-sewer-overflow-sso-additional-resources Technical reports and additional SSO resources] - EPA
{{Sewerage}}
[[Category:
[[Category:Sewerage]]
[[Category:Water pollution]]
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