Wastewater

Greywater (a type of wastewater) in a settling tank

Wastewater, also written as waste water, is any water that has been adversely affected in quality by anthropogenic influence. Wastewater can originate from a combination of domestic, industrial, commercial or agricultural activities, surface runoff or stormwater, and from sewer inflow or infiltration.^[1]

Municipal wastewater (also called sewage) is usually conveyed in a combined sewer or sanitary sewer, and treated at a wastewater treatment plant. Treated wastewater is discharged into receiving water via an effluent pipe. Wastewaters generated in areas without access to centralized sewer systems rely on on-site wastewater systems. These typically comprise a septic tank, drain field, and optionally an on-site treatment unit. The management of wastewater belongs to the overarching term sanitation, just like the management of human excreta, solid waste and stormwater (drainage).

Sewage is a type of wastewater that comprises domestic wastewater and is therefore contaminated with feces or urine from people's toilets, but the term sewage is also used to mean any type of wastewater. Sewerage is the physical infrastructure, including pipes, pumps, screens, channels etc. used to convey sewage from its origin to the point of eventual treatment or disposal.

Sources

Wastewater can come from:

Human excreta (feces and urine) often mixed with used toilet paper or wipes; this is known as blackwater if it is collected with flush toilets
Washing water (personal, clothes, floors, dishes, cars, etc.), also known as greywater or sullage
Surplus manufactured liquids from domestic sources (drinks, cooking oil, pesticides, lubricating oil, paint, cleaning liquids, etc.)
Urban runoff from highways, roads, carparks, roofs, sidewalks/pavements (contains oils, animal feces, litter, gasoline/petrol, diesel or rubber residues from tires, soapscum, metals from vehicle exhausts, de-icing agents, etc.)
Storm drains (may include trash)
Manmade liquids (illegal disposal of pesticides, used oils, etc.)
Industrial waste
Industrial site drainage (silt, sand, alkali, oil, chemical residues);
- Industrial cooling waters (biocides, heat, slimes, silt)
- Industrial process waters
- Organic or biodegradable waste, including waste from abattoirs, creameries, and ice cream manufacture
- Organic or non bio-degradable/difficult-to-treat waste (pharmaceutical or pesticide manufacturing)
- Extreme pH waste (from acid/alkali manufacturing, metal plating)
- Toxic waste (metal plating, cyanide production, pesticide manufacturing, etc.)
- Solids and emulsions (paper manufacturing, foodstuffs, lubricating and hydraulic oil manufacturing, etc.)
- Hydraulic fracturing
- Produced water from oil & natural gas production
Agricultural pollution, direct and diffuse

Wastewater can be diluted or mixed with other types of water in the form of:

Seawater ingress (high volumes of salt and microbes)
Direct ingress of river water
Rainfall collected on roofs, yards, hard-standings, etc. (generally clean with traces of oils and fuel)
Groundwater infiltrated into sewage

After it has undergone some treatment, the "treated wastewater" remains, e.g.:

Septic tank discharge
Sewage treatment plant discharge

Pollutants

The composition of wastewater varies widely. This is a partial list of pollutants that may be contained in wastewater:

Chemical or physical pollutants

Heavy metals, including mercury, lead, and chromium
Organic particles such as feces, hairs, food, vomit, paper fibers, plant material, humus, etc.;
Soluble organic material such as urea, fruit sugars, soluble proteins, drugs, pharmaceuticals, etc.;
Inorganic particles such as sand, grit, metal particles, ceramics, etc.;
Soluble inorganic material such as ammonia, road-salt, sea-salt, cyanide, hydrogen sulfide, thiocyanates, thiosulfates, etc.;
Macro-solids such as sanitary napkins, nappies/diapers, condoms, needles, children's toys, dead animals or plants, etc.;
Gases such as hydrogen sulfide, carbon dioxide, methane, etc.;
Emulsions such as paints, adhesives, mayonnaise, hair colorants, emulsified oils, etc.;
Toxins such as pesticides, poisons, herbicides, etc.
Pharmaceuticals and hormones and other hazardous substances
Thermal pollution from power stations and industrial manufacturers

Biological pollutants

If the wastewater contains human feces, as is the case for sewage, then it may also contain pathogens of one of the four types:^[2]^[3]

Bacteria (for example Salmonella, Shigella, Campylobacter, Vibrio cholera),
Viruses (for example hepatitis A, rotavirus, enteroviruses),
Protozoa (for example Entamoeba histolytica, Giardia lamblia, Cryptosporidium parvum) and
Parasites such as helminths and their eggs (e.g. ascaris (roundworm), ancylostoma (hookworm), trichuris (whipworm));

It can also contain non-pathogenic bacteria and animals such as insects, arthropods, small fish.

Quality indicators

Any oxidizable material present in an aerobic natural waterway or in an industrial wastewater will be oxidized both by biochemical (bacterial) or chemical processes. The result is that the oxygen content of the water will be decreased.

Since all natural waterways contain bacteria and nutrients, almost any waste compounds introduced into such waterways will initiate biochemical reactions (such as shown above). Those biochemical reactions create what is measured in the laboratory as the biochemical oxygen demand (BOD). Such chemicals are also liable to be broken down using strong oxidizing agents and these chemical reactions create what is measured in the laboratory as the chemical oxygen demand (COD). Both the BOD and COD tests are a measure of the relative oxygen-depletion effect of a waste contaminant. Both have been widely adopted as a measure of pollution effect. The BOD test measures the oxygen demand of biodegradable pollutants whereas the COD test measures the oxygen demand of oxidizable pollutants.

Treatment

At a global level, around 80% of wastewater produced is dischared into the environment untreated, causing widespread water pollution.^[4]^:2

There are numerous processes that can be used to clean up wastewaters depending on the type and extent of contamination. Wastewater can be treated in wastewater treatment plants which include physical, chemical and biological treatment processes. Municipal wastewater is treated in sewage treatment plants (which may also be referred to as wastewater treatment plants). Agricultural wastewater may be treated in agricultural wastewater treatment processes, whereas industrial wastewater is treated in industrial wastewater treatment processes.

For municipal wastewater the use of septic tanks and other On-Site Sewage Facilities (OSSF) is widespread in some rural areas, for example serving up to 20 percent of the homes in the U.S.^[5]

One type of aerobic treatment system is the activated sludge process, based on the maintenance and recirculation of a complex biomass composed of micro-organisms able to absorb and adsorb the organic matter carried in the wastewater. Anaerobic wastewater treatment processes (UASB, EGSB) are also widely applied in the treatment of industrial wastewaters and biological sludge. Some wastewater may be highly treated and reused as reclaimed water. Constructed wetlands are also being used.

Disposal

Industrial wastewater effluent with neutralized pH from tailing runoff in Peru.

In some urban areas, municipal wastewater is carried separately in sanitary sewers and runoff from streets is carried in storm drains. Access to either of these is typically through a manhole. During high precipitation periods a combined sewer overflow can occur, forcing untreated sewage to flow back into the environment. This can pose a serious threat to public health and the surrounding environment.

Sewage may drain directly into major watersheds with minimal or no treatment but this usually has serious impacts on the quality of an environment and on the health of people. Pathogens can cause a variety of illnesses. Some chemicals pose risks even at very low concentrations and can remain a threat for long periods of time because of bioaccumulation in animal or human tissue.

Wastewater may be pumped underground through an injection well.

Reuse

Treated wastewater can be reused in industry (for example in cooling towers), in artificial recharge of aquifers, in agriculture and in the rehabilitation of natural ecosystems (for example in wetlands). In rarer cases it is also used to augment drinking water supplies. There are several technologies used to treat wastewater for reuse. A combination of these technologies can meet strict treatment standards and make sure that the processed water is hygienically safe, meaning free from bacteria and viruses. The following are some of the typical technologies: Ozonation, ultrafiltration, aerobic treatment (membrane bioreactor), forward osmosis, reverse osmosis, advanced oxidation.

Some water demanding activities do not require high grade water. In this case, wastewater can be reused with little or no treatment. One example of this scenario is in the domestic environment where toilets can be flushed using greywater from baths and showers with little or no treatment.

Irrigation with recycled wastewater can also serve to fertilize plants if it contains nutrients, such as nitrogen, phosphorus and potassium. In developing countries, agriculture is using untreated wastewater for irrigation - often in an unsafe manner. There can be significant health hazards related to using untreated wastewater in agriculture. The World Health Organization developed guidelines for safe use of wastewater in 2006.^[6]

Legislation

United States

The Clean Water Act is the primary federal law in the United States governing water pollution.^[7]

Philippines

In the Philippines, Republic Act 9275, otherwise known as the Philippine Clean Water Act of 2004,^[8] is the governing law on wastewater management. It states that it is the country's policy to protect, preserve and revive the quality of its fresh, brackish and marine waters, for which wastewater management plays a particular role.^[8]

Nigeria

In the Nigeria, the Water Resources Act of 1993 is the law responsible for all kinds of water management.

References

↑ Tilley, E., Ulrich, L., Lüthi, C., Reymond, Ph., Zurbrügg, C. Compendium of Sanitation Systems and Technologies – (2nd Revised Edition). Swiss Federal Institute of Aquatic Science and Technology (Eawag), Duebendorf, Switzerland. p. 175. ISBN 978-3-906484-57-0.
↑ World Health Organization (2006). Guidelines for the safe use of wastewater, excreta, and greywater. World Health Organization. p. 31. ISBN 9241546859. OCLC 71253096.
↑ Andersson, K., Rosemarin, A., Lamizana, B., Kvarnström, E., McConville, J., Seidu, R., Dickin, S. and Trimmer, C. (2016). Sanitation, Wastewater Management and Sustainability: from Waste Disposal to Resource Recovery. Nairobi and Stockholm: United Nations Environment Programme and Stockholm Environment Institute. ISBN 978-92-807-3488-1, p. 56
↑ WWAP (United Nations World Water Assessment Programme) (2017). The United Nations World Water Development Report 2017. Wastewater: The Untapped Resource. Paris. ISBN 978-92-3-100201-4.
↑ U.S. Environmental Protection Agency, Washington, D.C. (2008). "Septic Systems Fact Sheet." EPA publication no. 832-F-08-057.
↑ WHO (2006). WHO Guidelines for the Safe Use of Wastewater, Excreta and Greywater – Volume IV: Excreta and greywater use in agriculture. World Health Organization (WHO), Geneva, Switzerland
↑ United States. Clean Water Act. 33 U.S.C. § 1251 et seq. Pub.L. 92-500, 18 October 1972; as amended.
1 2 "An Act Providing For A Comprehensive Water Quality Management And For Other Purposes". The LawPhil Project. Retrieved September 30, 2016.

Wastewater
Sources	Acid mine drainage Ballast water Bathroom Blackwater (coal) Blackwater (waste) Boiler blowdown Brine Combined sewer Cooling tower Cooling water Fecal sludge Greywater Infiltration/Inflow Industrial effluent Ion exchange Leachate Manure Papermaking Produced water Return flow Reverse osmosis Sanitary sewer Septage Sewage Sewage sludge Toilet Urban runoff
Quality indicators	Biochemical oxygen demand Chemical oxygen demand Coliform index Dissolved oxygen Heavy metals pH Salinity Temperature Total dissolved solids Total suspended solids Turbidity
Treatment options	Activated sludge Aerated lagoon Agricultural wastewater treatment API oil-water separator Carbon filtration Chlorination Clarifier Constructed wetland Decentralized wastewater system Extended aeration Facultative lagoon Fecal sludge management Filtration Imhoff tank Industrial wastewater treatment Ion exchange Membrane bioreactor Reverse osmosis Rotating biological contactor Secondary treatment Sedimentation Septic tank Settling basin Sewage sludge treatment Sewage treatment Stabilization pond Trickling filter Ultraviolet germicidal irradiation UASB Vermifilter Wastewater treatment plant
Disposal options	Combined sewer Evaporation pond Groundwater recharge Infiltration basin Injection well Irrigation Marine dumping Marine outfall Reclaimed water Sanitary sewer Septic drain field Sewage farm Storm drain Surface runoff

Biosolids, waste and waste management
Major types	Agricultural wastewater Biodegradable waste Brown waste Chemical waste Construction waste Demolition waste Electronic waste by country Food waste Green waste Hazardous waste Heat waste Industrial waste Litter Marine debris Biomedical waste Mining waste Municipal solid waste Open defecation Post-consumer waste Radioactive waste Scrap metal Sewage Toxic waste Wastewater
Processes	Anaerobic digestion Biodegradation Composting Garden waste dumping Illegal dumping Incineration Landfill Landfill mining Mechanical biological treatment Mechanical sorting Open dump Photodegradation Recycling Resource recovery Sewage treatment Waste collection Waste picking Waste sorting Waste trade Waste treatment Waste-to-energy
Countries	Armenia Bangladesh Brazil Hong Kong India Kazakhstan New Zealand Russia Switzerland Taiwan Thailand Turkey UK US
Agreements	Bamako Convention Basel Convention EU directives batteries landfills RoHS framework incineration waste water WEEE London Convention Oslo Convention OSPAR Convention
Other topics	Blue Ribbon Commission on America's Nuclear Future Cleaner production Downcycling Eco-industrial park Extended producer responsibility High-level radioactive waste management History of waste management Landfill fire Sewage regulation and administration Upcycling Waste hierarchy Waste legislation Waste minimisation Zero waste
Environment portal Category Commons Concepts Index Journals Lists Organizations

Pollution
Air pollution	Acid rain Air quality index Atmospheric dispersion modeling Chlorofluorocarbon Indoor air quality Global dimming Global distillation Global warming Ozone depletion Atmospheric particulate matter Smog
Water pollution	Environmental impact of pharmaceuticals and personal care products Environmental impact of shipping Environmental monitoring Eutrophication Freshwater environmental quality parameters Groundwater pollution Hypoxia Marine debris Marine pollution Ocean acidification Oil spill Septic tank Surface runoff Thermal pollution Turbidity Urban runoff Wastewater Water quality Water stagnation Waterborne diseases
Soil contamination	Bioremediation Electrical resistance heating Herbicide Open defecation Pesticide Phytoremediation Soil Guideline Values (SGVs)
Radioactive contamination	Actinides in the environment Bioremediation of radioactive waste Environmental radioactivity Fission product Nuclear fallout Plutonium in the environment Radiation poisoning Radium in the environment Uranium in the environment
Other types of pollution	Land degradation Light pollution Pollution from nanomaterials Noise pollution Radio spectrum pollution Urban heat island Visual pollution
Inter-government treaties	Basel Convention CLRTAP Kyoto Protocol MARPOL Convention Montreal Protocol OSPAR Stockholm Convention
Major organizations	Basel Action Network Central Pollution Control Board (India) DEFRA Environment Agency (England and Wales) Scottish Environment Protection Agency U.S. EPA European Environment Agency Greenpeace

Natural resources

Air

Pollution / quality	Ambient standards (USA) Index Indoor developing nations Law Clean Air Act (USA) Ozone depletion
Emissions	Airshed Trading Deforestation (REDD)

Energy

Land

Arable
- peak farmland
Degradation
Law
- property
Management
- habitat conservation
Minerals
- mining
  - law
  - sand
- peak
- rights
Soil
Use
- planning
- reserve

Life

Water

Types / location	Aquifer storage and recovery Drinking Fresh Groundwater pollution recharge remediation Hydrosphere Ice bergs glacial polar Irrigation Rain harvesting Stormwater Surface water Wastewater reclaimed
Aspects	Desalination Floods Law Leaching Sanitation Conflict Conservation Peak water Pollution Privatization Quality Right Resources management policy

Common land common-pool enclosure global tragedy theory Economics ecological Ecosystem services Exploitation overexploitation Earth Overshoot Day Management adaptive Natural capital accounting Nature reserve Systems ecology Urban ecology Wilderness
Resource	Conflict (perpetuation) Curse Depletion Extraction Nationalism Renewable / Non-renewable

Portals

Agriculture and agronomy
Energy
Environment
Fishing
Forestry
Mining
Water
Wetlands

Category
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Colleges
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