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All sewage ends up back in the environment (from which its constituents came), by any of several routes. A basic distinction in its route is whether it undergoes [[sewage treatment]] to mitigate its effect on the environment before arriving there. Sewage usually travels from a building's [[plumbing]] either into a [[sewerage|sewer]], which will carry it elsewhere, or into an [[onsite sewage facility]] (of which there are many kinds). Whether it is combined with surface runoff in the sewer depends on the sewer design ([[sanitary sewer]] or [[combined sewer]]). Before the 20th century, sewers usually discharged into a [[body of water]] such as a stream, river, lake, bay, or ocean. There was no treatment, so the breakdown of the [[human waste]] was left to the [[ecosystem]]. Today, the goal is that sewers route their contents to a [[wastewater treatment plant]] rather than directly to a body of water. In many countries, this is the norm; in many [[developing countries]], it may be a yet-unrealized goal. In general, with passing decades and centuries, humanity seeks to be smarter about the route of sewage on its way back to the environment, in order to reduce [[environmental degradation]] and achieve [[sustainability]]. Thus other goals of modern sewage routing include handling surface runoff separately from sewage, handling greywater separately from toilet waste, and coping better with abnormal events (such as peaks in use from [[internally displaced person|internal displacement]] and peaks in [[stormwater]] volumes from extreme weather).
All sewage ends up back in the environment (from which its constituents came), by any of several routes. A basic distinction in its route is whether it undergoes [[sewage treatment]] to mitigate its effect on the environment before arriving there. Sewage usually travels from a building's [[plumbing]] either into a [[sewerage|sewer]], which will carry it elsewhere, or into an [[onsite sewage facility]] (of which there are many kinds). Whether it is combined with surface runoff in the sewer depends on the sewer design ([[sanitary sewer]] or [[combined sewer]]). Before the 20th century, sewers usually discharged into a [[body of water]] such as a stream, river, lake, bay, or ocean. There was no treatment, so the breakdown of the [[human waste]] was left to the [[ecosystem]]. Today, the goal is that sewers route their contents to a [[wastewater treatment plant]] rather than directly to a body of water. In many countries, this is the norm; in many [[developing countries]], it may be a yet-unrealized goal. In general, with passing decades and centuries, humanity seeks to be smarter about the route of sewage on its way back to the environment, in order to reduce [[environmental degradation]] and achieve [[sustainability]]. Thus other goals of modern sewage routing include handling surface runoff separately from sewage, handling greywater separately from toilet waste, and coping better with abnormal events (such as peaks in use from [[internally displaced person|internal displacement]] and peaks in [[stormwater]] volumes from extreme weather).


Proper collection and safe, nuisance-free disposal of the liquid wastes of a community are legally recognized as a necessity in an urbanized, industrialized society.<ref name="scitech">McGraw-Hill Encyclopedia of Science and Technology (View excerpt at [http://www.answers.com/topic/sewage Answers.com]</ref> The reality is, however, that around 90% of wastewater produced globally remains untreated causing widespread [[water pollution]], especially in low-income countries.
Proper collection and safe, nuisance-free disposal of the liquid wastes of a community are legally recognized as a necessity in an urbanized, industrialized society.<ref name="scitech">McGraw-Hill Encyclopedia of Science and Technology (View excerpt at [http://www.answers.com/topic/sewage Answers.com]</ref> The reality is, however, that around 90% of wastewater produced globally remains untreated causing widespread [[water pollution]], especially in low-income countries: A global estimate by [[UNDP]] and [[UN-Habitat]] is that 90% of all wastewater generated is released into the environment untreated.<ref>{{cite book|last1=Corcoran, E., C. Nellemann, E. Baker, R. Bos, D. Osborn,
H. Savelli (eds)|first1=|title=Sick water? : the central role of wastewater management in sustainable development : a rapid response assessment|date=2010|publisher=UNEP/GRID-Arendal|location=Arendal, Norway|isbn=978-82-7701-075-5|url=http://www.unep.org/pdf/SickWater_screen.pdf}}</ref> In many developing countries the bulk of domestic and industrial wastewater is discharged without any treatment or after primary treatment only.


The term sewage is nowadays regarded as an older term and is being more and more replaced by "wastewater".<ref>{{cite book|title = Wastewater engineering : treatment and reuse|publisher = Metcalf & Eddy, Inc., McGraw Hill, USA|isbn = 0-07-112250-8|page = 1807|edition = 4th|year = 2003}}</ref> In general [[American English]] usage, the terms "sewage" and "[[sewerage]]" mean the same thing.<ref>Funk & Wagnall's Standard Dictionary (International Edition) New York, 1960, p. 1152.</ref><ref>{{cite book
The term sewage is nowadays regarded as an older term and is being more and more replaced by "wastewater".<ref>{{cite book|title = Wastewater engineering : treatment and reuse|publisher = Metcalf & Eddy, Inc., McGraw Hill, USA|isbn = 0-07-112250-8|page = 1807|edition = 4th|year = 2003}}</ref> In general [[American English]] usage, the terms "sewage" and "[[sewerage]]" mean the same thing.<ref>Funk & Wagnall's Standard Dictionary (International Edition) New York, 1960, p. 1152.</ref><ref>{{cite book

Revision as of 01:56, 9 November 2015

Raw sewage arriving at a sewage treatment plant in Syria

Sewage is a water-carried waste, in solution or suspension, that is intended to be removed from a community. Also known as domestic or municipal wastewater, it is more than 99% water and is characterized by volume or rate of flow, physical condition, chemical and toxic constituents, and its bacteriologic status (which organisms it contains and in what quantities). It consists mostly of greywater (from sinks, tubs, showers, dishwashers, and clothes washers), blackwater (the water used to flush toilets, combined with the human waste that it flushes away); soaps and detergents; and toilet paper (less so in regions where bidets are widely used instead of paper). Whether it also contains surface runoff depends on the design of sewer system.

All sewage ends up back in the environment (from which its constituents came), by any of several routes. A basic distinction in its route is whether it undergoes sewage treatment to mitigate its effect on the environment before arriving there. Sewage usually travels from a building's plumbing either into a sewer, which will carry it elsewhere, or into an onsite sewage facility (of which there are many kinds). Whether it is combined with surface runoff in the sewer depends on the sewer design (sanitary sewer or combined sewer). Before the 20th century, sewers usually discharged into a body of water such as a stream, river, lake, bay, or ocean. There was no treatment, so the breakdown of the human waste was left to the ecosystem. Today, the goal is that sewers route their contents to a wastewater treatment plant rather than directly to a body of water. In many countries, this is the norm; in many developing countries, it may be a yet-unrealized goal. In general, with passing decades and centuries, humanity seeks to be smarter about the route of sewage on its way back to the environment, in order to reduce environmental degradation and achieve sustainability. Thus other goals of modern sewage routing include handling surface runoff separately from sewage, handling greywater separately from toilet waste, and coping better with abnormal events (such as peaks in use from internal displacement and peaks in stormwater volumes from extreme weather).

Proper collection and safe, nuisance-free disposal of the liquid wastes of a community are legally recognized as a necessity in an urbanized, industrialized society.[1] The reality is, however, that around 90% of wastewater produced globally remains untreated causing widespread water pollution, especially in low-income countries: A global estimate by UNDP and UN-Habitat is that 90% of all wastewater generated is released into the environment untreated.[2] In many developing countries the bulk of domestic and industrial wastewater is discharged without any treatment or after primary treatment only.

The term sewage is nowadays regarded as an older term and is being more and more replaced by "wastewater".[3] In general American English usage, the terms "sewage" and "sewerage" mean the same thing.[4][5][6] Both words are descended from Old French assewer, derived from the Latin exaquare, "to drain out (water)". In American technical and professional English usage, "sewerage" refers to the infrastructure that conveys sewage.[7]

Types

Greywater samples before and after treatment in a constructed wetland in Peru
  • The wastewater from residences and institutions, carrying body wastes (primarily feces and urine), washing water, food preparation wastes, laundry wastes, and other waste products of normal living, are classed as domestic or sanitary sewage.
  • Liquid-carried wastes from stores and service establishments serving the immediate community, termed commercial wastes, are included in the sanitary or domestic sewage category if their characteristics are similar to household flows. Wastes that result from an industrial processes such as the production or manufacture of goods are classed as industrial wastewater, not as sewage.
  • Surface runoff, also known as storm flow or overland flow, is that portion of precipitation that runs rapidly over the ground surface to a defined channel. Precipitation absorbs gases and particulates from the atmosphere, dissolves and leaches materials from vegetation and soil, suspends matter from the land, washes spills and debris from urban streets and highways, and carries all these pollutants as wastes in its flow to a collection point.

Pollutants

Organic pollutants and nutrients

Sewage is a complex mixture of chemicals, with many distinctive chemical characteristics. These include high concentrations of ammonium, nitrate, phosphorus, high conductivity (due to high dissolved solids), high alkalinity, with pH typically ranging between 7 and 8. The organic matter of sewage is measured by determining its biological oxygen demand (BOD) or the chemical oxygen demand (COD). Sewage also contains the nutrients nitrogen and phosphorus

Pathogens and micro-pollutants

Sewage can be monitored for both disease-causing and benign organisms with a variety of techniques. Traditional techniques involve filtering, staining, and examining samples under a microscope. Much more sensitive and specific testing can be accomplished with DNA sequencing, such as when looking for rare organisms,[8] attempting eradication,[9] testing specifically for drug-resistant strains,[10] or discovering new species.[11] Sequencing DNA from an environmental sample is known as metagenomics.

Sewage has also been analyzed to determine relative rates of use of prescription[12] and illegal[13] drugs among municipal populations.

Sewage also contains environmental persistent pharmaceutical pollutants.

Trihalomethanes can also be present as a result of past disinfection.

Health and environmental aspects

All categories of sewage are likely to carry pathogenic organisms that can transmit disease to humans and animals. Sewage also contains organic matter that can cause odor and attract flies.

Sewage contains nutrients that may cause eutrophication of receiving water bodies; and can lead to ecotoxicity.

Reuse in agriculture

Increasingly, agriculture is using untreated wastewater for irrigation. Cities provide lucrative markets for fresh produce, so are attractive to farmers. However, because agriculture has to compete for increasingly scarce water resources with industry and municipal users, there is often no alternative for farmers but to use water polluted with urban waste, including sewage, directly to water their crops. There can be significant health hazards related to using water loaded with pathogens in this way, especially if people eat raw vegetables that have been irrigated with the polluted water.

The International Water Management Institute has worked in India, Pakistan, Vietnam, Ghana, Ethiopia, Mexico and other countries on various projects aimed at assessing and reducing risks of wastewater irrigation. They advocate a ‘multiple-barrier’ approach to wastewater use, where farmers are encouraged to adopt various risk-reducing behaviours. These include ceasing irrigation a few days before harvesting to allow pathogens to die off in the sunlight, applying water carefully so it does not contaminate leaves likely to be eaten raw, cleaning vegetables with disinfectant or allowing fecal sludge used in farming to dry before being used as a human manure.[14] The World Health Organization has developed guidelines for safe water use.

Collection and disposal

A medieval waste pipe in Stockholm Old Town formerly deposited sewage on the street to be flushed away by rain.

A system of sewer pipes (sewers) collects sewage and takes it for treatment or disposal. The system of sewers is called sewerage or sewerage system (see London sewerage system) in British English and sewage system in American English. Where a main sewerage system has not been provided, sewage may be collected from homes by pipes into septic tanks or cesspits, where it may be treated or collected in vehicles and taken for treatment or disposal. Properly functioning septic tanks require emptying every 2–5 years depending on the load of the system.

Sewage and wastewater is also disposed of to rivers, streams, and the sea in many parts of the world. Doing so can lead to serious pollution of the receiving water. This is common in developing countries and may still occur in some developed countries, where septic tank systems are too expensive.

Treatment

Sewage treatment is the process of removing the contaminants from sewage to produce liquid and solid (sludge) suitable for discharge to the environment or for reuse. It is a form of waste management. A septic tank or other on-site wastewater treatment system such as biofilters or constructed wetlands can be used to treat sewage close to where it is created.

Sewage treatment results in sewage sludge which requires sewage sludge treatment before safe disposal or reuse. Under certain circumstances, the treated sewage sludge might be termed "biosolids" and can be used as a fertilizer.

In developed countries sewage collection and treatment is typically subject to local, state and federal regulations and standards.

See also

2

References

  1. ^ McGraw-Hill Encyclopedia of Science and Technology (View excerpt at Answers.com
  2. ^ Corcoran, E., C. Nellemann, E. Baker, R. Bos, D. Osborn, H. Savelli (eds) (2010). Sick water? : the central role of wastewater management in sustainable development : a rapid response assessment (PDF). Arendal, Norway: UNEP/GRID-Arendal. ISBN 978-82-7701-075-5. {{cite book}}: |last1= has generic name (help); line feed character in |last1= at position 57 (help)CS1 maint: multiple names: authors list (link)
  3. ^ Wastewater engineering : treatment and reuse (4th ed.). Metcalf & Eddy, Inc., McGraw Hill, USA. 2003. p. 1807. ISBN 0-07-112250-8.
  4. ^ Funk & Wagnall's Standard Dictionary (International Edition) New York, 1960, p. 1152.
  5. ^ Flexner, Sturat; Hauck, Leonore, eds. (1987) [1966]. The Random House Unabridged Dictionary (Second ed.). New York City: Random House (published 1993). p. 1754.
  6. ^ Neilson, William Allan; Knott, Thomas A., eds. (1934). Webster's new international dictionary of the English language. Second edition unabridged. An entirely new work (Second ed.). Springfield, Mass: C. & C. Merriam Company. p. 2296. {{cite book}}: |format= requires |url= (help)
  7. ^ "sewerage - definition of sewerage in English from the Oxford dictionary". Oxforddictionaries.com. Retrieved 2015-09-04.
  8. ^ Environmental Occurrence of the Whipple’s Disease Bacterium (Tropheryma whippelii)
  9. ^ Poliovirus detected from environmental samples in Israel
  10. ^ Drug resistant bug review: NDM-1 in New Delhi’s sewage, WHO calls to action, recent outbreaks of antibiotic resistant bacteria
  11. ^ Raw Sewage Harbors Diverse Viral Populations
  12. ^ Miao, X. S.; Metcalfe, C. D. (2003). "Determination of cholesterol-lowering statin drugs in aqueous samples using liquid chromatography-electrospray ionization tandem mass spectrometry". Journal of chromatography. A. 998 (1–2): 133–141. doi:10.1016/S0021-9673(03)00645-9. PMID 12862379.
  13. ^ 'Testing the waters': First International conference on drug wastewater analysis
  14. ^ Wastewater use in agriculture: Not only an issue where water is scarce! International Water Management Institute, 2010. Water Issue Brief 4