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[[Image:Donotdrink.jpg|right|280px|thumb|Warning sign in [[Santa Monica, California]], where reclaimed water is used to irrigate plants in public parks.]] |
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'''Reclaimed water''', sometimes called '''recycled water''', is former [[wastewater]] (sewage) that has been treated to remove solids and certain impurities, and then allowed to recharge the aquifer rather than being discharged to surface water. This recharging is often done by using the treated wastewater for irrigation. In most locations, it is only intended to be used for nonpotable uses, such as irrigation, dust control, and fire suppression, and there is controversy about possible health and environmental effects for those uses. In some locations (not in the United States), it is given more advanced treatment <ref>[http://www.pub.gov.sg/NEWater_files/faq/index.html NEWater FAQ], accessed 8 Jan 2007.</ref> and is used indirectly for drinking. |
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==History== |
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Storm and sanitary sewers were necessarily developed along with the growth of cities. By the 1840's the luxury of indoor plumbing, which mixes human waste with water and flushes it away, eliminated the need for cesspools. Odor was considered the big problem in waste disposal and to address it, sewage could be drained to a lagoon, or "settled" and the solids removed, to be disposed of separately. This process is now called "primary treatment" and the settled solids are called "sludge." |
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At the end of the 19th century, since primary treatment still left odor problems, it was discovered that bad odors could be prevented by introducing oxygen into the decomposing sewage. This was the beginning of the biological aerobic and anaerobic treatments which are fundamental to waste water processes. |
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By the 1920's, it became necessary to further control the pollution caused by the large quantities of human and industrial liquid wastes which were being piped into rivers and oceans, and modern treatment plants were being built by the 1930's.<ref>P.F.Cooper,2001, [[Decentralized Sanitation and Reuse]],Chapt.2, IWA Publishing, London,UK.</ref> |
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Designed to make water safe for fishing and recreation, the Clean Water Act of 1972 mandated elimination of the discharge of untreated waste from municipal and industrial sources, and the federal government provided billions of dollars in grants for building sewage treatment plants around the country. Modern treatment plants, usually using sand filtration and chlorination in addition to primary and secondary treatment, were required to meet certain standards.<ref>33 Usc 1251 seq., 1972, [[Federal Water Pollution Control Act]], Enacted by Congress.</ref> |
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Current treatment improves the quality of separated wastewater solids or sludge. It is known to still contain toxic chemicals and pathogens, but is now being spread on farm fields. <ref>John Stauber, Sheldon Rampton, [[Toxic Sludge is Good for You...]], Common courage Press.</ref> The separated water is given further treatment considered adequate for nonpotable use by local agencies, and discharged into bodies of water, or reused as reclaimed water. |
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In places like Florida, where it is necessary to avoid nutrient overload of sensitive receiving water, reuse of treated or reclaimed water can be more economically feasible than meeting the higher standards for surface water disposal mandated by the Clean Water Act <ref>www.Sierraclub.org/clearwater/reports_fact sheets/fact sheet_bush_water_agenda.pdf.</ref> |
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[[Los Angeles County]]'s sanitation districts have provided treated wastewater for landscape irrigation in parks and golf courses since 1929. |
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The first reclaimed water facility in [[California]] was built at [[San Francisco]]'s [[Golden Gate Park]] in 1932. |
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In Southern California, [[Irvine Ranch Water District]] and [[Orange County Water District]] are becoming the leaders in reclaimed water through their [[Green Acres Project]]. |
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==Benefits== |
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The cost of reclaimed water exceed those of standard water [[potable water]] in many regions of the world, where a fresh water supply is plentiful. However, reclaimed water is usually sold to citizens at a cheaper rate to encourage its use. |
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Using reclaimed water for non-potable use saves potable water for drinking, since less potable water will be used for non-potable uses. |
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It sometimes contains higher levels of nutrients such as [[nitrogen]], [[phosphorus]] and [[oxygen]] which may somewhat help [[fertilizer|fertilize]] plants when used for irrigation.{{Fact|date=February 2007}} |
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==Potential problems in use for irrigation== |
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Recent studies support long standing concerns about possible public health effects of reclaimed water. It has been known for some time that treated waste water effluent, or reclaimed water, contains pathogens that could be transferred to people through contact, including aerosols from sprinklers. Particularly worrisome are high levels of parasites such as ''giardia'' and ''cryptosporidium'' which are not killed by chlorination. <ref> Gennaccaro, McLaughlin, Betancourt, Huffman and Rose,[[Infectious Cryptosporidium parvum Oocysts in Final Reclaimed Effluent],Dept Marine Science, U of South Florida, St Petersburg, Florida.</ref> In 1997, the EPA warned,"(Viable) bacteria from reclaimed water in sprinklers can travel more than 1000 feet in the air." <ref>EPA Guidelines for Water Reuse, (1996)</ref> As far back as 1984, researchers concluded that disinfection by chlorination, an important part of wastewater treatment, initially lowers the total number of sewage related bacteria, but may substantially increase the proportions of antibiotic resistant, potentially pathogenic organisms. <ref>GE Murray, RS Tobin, B Junkins,DJ Kushner,(1984)[[Effect of Chlorination on antibiotic resistance profiles of sewage-related bacteria]], Appl Environ Microbiol. July 1998:48(1): 73-74</ref> |
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More recently, Chang(2007) reported that ''Staphyloccus aureus'' bacteria (responsible for MRSA) become more virulent and |
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drug resistant after chlorination.<ref>Matthew Wook Chang, Freshteh Toghrol, William Bentley,[[Toxicogenomic Response to Chlorination Includes Induction of Major Virulence Genes in ''Staphylococcus aureus'']],Environ. Sci. Technol., 41(21)7570-7575.</ref> |
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A large study in 2006 confirms that microbes, inactivated but not killed by treatment, can regrow in retention ponds and pipes, becoming a major source of the spread of multi drug resistant pathogens in the environment.<ref>Timothy Lapara, Sara Firl,(2006)[[The Importance of Municipal Sewage Treatment in the Spread of Antibiotic resistance]],100th General Meeting of the American Society for Microbiology, May 21-25, 2006. Orlando Fl.</ref> During the processing of reclaimed water, fragments can be released from microbes when their cell walls are disrupted. These fragments are not alive and not affected by disinfectants like chlorine. This intact genetic material can transfer both virulence and drug resistance to living microorganisms in water or soil. Amy Pruden(2006) demonstrates that such genetic fragments pass through sewer water reclamation plants into rivers and into drinking water sources. <ref>Amy Pruden, 2006, [[Antibiotic Resistance genes as emerging contaminants]], Studies in Northern Colorado, Environmental Science Technology 40, 7445-7450</ref> Since the number and types of bacteria in a treatment plant are large, a positive environment exists for transfer of drug resistance. |
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Independent scientists found that Santa Barbara's reclaimed water contained chlorine resistant bacteria that were also resistant to eleven of the twelve antibiotics tested.<ref> Edo Mcgowan, (2008)[[The Watchers.US/edo_politics-reclaimed-water.html-74k]]</ref> |
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There is also concern in the industry about organic chemicals, including endocrine disruptors in wastewater <ref>Maria Burke(2004),[[UK to tackle Endocrine Disruptors in Wastewater]], Technology News, Sept 1,2004.</ref> In 2005,US Dept of Agriculture reported:"Overall, the environmental and public health impacts of irrigation with reclaimed sewage effluent and the potential degradation of underlying groundwater are largely unknown",<ref>US Dept of Agriculture, 2005 Report</ref> |
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==Suitable for drinking?== |
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In most locations, reclaimed water is not directly mixed with potable (drinking) water for several reasons: |
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*Utilities providing reclaimed water for nonpotable uses do not treat the water to drinking water standards. |
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*Varying amounts of [[pathogen]]s, [[pharmacology|pharmaceutical]] [[chemical]]s (e.g., hormones from female [[hormonal contraception]]) and other trace chemicals are able to pass through the treatment and filtering process, potentially causing danger to humans. Modern technologies such as [[reverse osmosis]] may help to somewhat overcome this problem. An experiment by the University of New South Wales reportedly showed a reverse osmosis system removed [[ethinylestradiol]] and [[paracetamol]] from the wastewater, even at 1000 times the expected ppm.<ref> ,[http://www.abc.net.au/catalyst/stories/s1785041.htm From the Toilet to the Tap]</ref> |
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*Drinking water standards were developed for natural ground water, and are not appropriate for identifying contaminants in reclaimed water. In addition to pathogens, and organic and endocrine disrupting chemicals, a large number of compounds may be present in reclaimed water. They cannot all be tested for, and there is a paucity of toxicity information on many of the compounds. <ref>Committee on the Viablility of Augmenting Drinking Water Supplies with Reclaimed water,1998, [[Issues in Potable Reuse]] National Research Council</ref> |
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Because of this, state regulatory agencies do not allow reclaimed water to be used for drinking, bathing, or filling [[swimming pool]]s. They also warn those who use reclaimed water for irrigation to place a sign on their property warning people not to drink from the irrigation system, and to not use it directly on fruits or vegetables. |
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==Lack of Testing and Standards for Irrigation Water== |
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Reclaimed water is not regulated by the EPA but by the states, using standards formulated decades ago. Newer information shows serious public health concerns about pathogens in the water.<ref>Timothy LaPara, Sara Firl, 2006, ''The Importance of Municipal Sewage Treatment in the spread of Antibiotic resistance'', 106th General Meeting of the American Society for Microbiology.</ref> Many pathogens cannot be detected by currently used tests.<ref>James D. Oliver, 2005, ''The Viable but Nonculturable State in Bacteria'', J. of Microbiology p.93-100.</ref> |
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Recent literature also questions the validity of testing for "indicator organisms" instead of pathogens.<ref>Valerie J. Harwood, Audry D. Levine, Troy M. Scott, Joan G. Rose, 2005,''Validity of the Indicator Organism Paradign for Pathogen Reduction in Reclaimed Water and Public Health Protection'', Applied and Environmental Microbiology, Vol.71.</ref> Nor do present standards consider interactions of heavy metals and pharmaceuticals which may foster the development of drug resistant pathogens in waters derived from sewage.<ref>{{cite web |url=http://www.bio.sci.Osaka-u.ac.jp/initiative2006pdf/TsaiLectSum.pdf |title=Bacterial Heavy Metal Resistance |accessdate=2008-05-11 |last=Tsai |first=Kan-Jen |date=2008 |publisher=Osaka Biology}}</ref> |
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==Indirect Potable Use== |
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Some municipalities are now investigating Planned '''Indirect Potable Use''' (IPU) of reclaimed water. For example, reclaimed water may be pumped into [[Reservoir (water)|reservoirs]] where it will mix with (and be diluted by) rainwater. This mixture of rainwater and reclaimed water could then be treated again, and finally used as drinking water. This technique may also be referred to as ''groundwater recharging'' or ''reservoir augmentation''. Singapore plans to increase the amount of reclaimed water in their reservoirs from 1% to 2.5% by 2011.<ref name=faq>[[Public Utilities Board]], [http://www.pub.gov.sg/NEWater_files/faq/index.html NEWater FAQ], accessed 8 Jan 2007.</ref> |
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'''Unplanned Indirect Potable Use'''<ref name=unplanned-ipu>[[Public Utilities Board]], [http://www.pub.gov.sg/NEWater_files/overseas_experiences/index.html Overseas Experiences], accessed [[24 April]] [[2007]].</ref> has existed even before the introduction of reclaimed water. Many cities already use water from rivers that contain effluent discharged from upstream sewage treatment plants. There are many large towns on the [[River Thames]] upstream of London ([[Oxford]], [[Reading, Berkshire|Reading]], [[Swindon]], [[Bracknell]]) that discharge their treated sewage into the river, which is used to supply London with water downstream. This phenomenon is also observed in the United States, where the [[Mississippi River]] serves as both the destination of sewage treatment plant effluent and the source of potable water. Research conducted in the 1960s by the London [[Metropolitan Water Board (London)|Metropolitan Water Board]] demonstrated that the maximum extent of recycling water is about 11 times before the taste of water induces [[nausea]] in sensitive individuals. This is caused by the build up of [[inorganic]] ions such as Cl<sup>-</sup>, SO4<sup>2-</sup>, K<sup>+</sup> and Na<sup>+</sup>, which are not removed by conventional [[Wastewater|sewage]] treatment. |
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==Possible Improvements in treatment== |
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As world populations require both more clean water and better ways to dispose of wastewater, the demand for water reclamation will increase. Future success in water reuse will depend on whether this can be done without adverse effects on human health and the environment. |
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In the United States, reclaimed waste water is generally treated to secondary level when used for irrigation, but there are questions about the adequacy of that treatment. Some leading scientists in the main water society, AWWA, have long believed that secondary treatment is insufficient to protect people against pathogens, and recommend adding at least membrane filtration, reverse osmosis, ozonation, or other advanced treatments for irrigation water.<ref>Fred Lee PhD,President American Water Works Association,Reuse Conference, 1996</ref> |
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Seepage of nitrogen and phosphorus into ground and surface water is also becoming a serious problem, and will probably lead to at least tertiary treatment of reclaimed to remove nutrients in future.<ref>Harvey H. Harper PhD., 2008, {{Good intentions gone awry?}}27th International Symposium of North American Lake Management Society, Orlando Florida</ref> |
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Even using secondary treatment, water quality can be improved. Testing for pathogens using Polymer Chain Reaction (PCR) instead of older culturing techniques, and changing the discredited fecal coloform "indicator organism" standard would be improvements. |
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In a large study <ref> Joan Rose et al,2004 Reduction of pathogens, indicator bacteria, alternative indicators by wastewater treatment and reclamation process,WERF </ref> treatment plants showed that they could significantly reduce the numbers of parasites in effluent, just by making adjustments to the currently used process. But, even using the best of current technology,risk of spreading drug resistance in the environment through wastewater effluent, would remain. |
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Some scientists have suggested that there need to be basic changes in treatment, such as using bacteria to degrade waste based on nitrogen(urine) and not just carbonaceous (fecal) waste, saying that this would greatly enhance effectiveness of treatment.<ref>Peter Maier PhD,{{Is Sewage Properly Treated?}}, Peter Maier.Net</ref> |
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Currently designed plants do not deal well with things in solution, ie: pharmaceuticals. "Dewatering" solids is a major problem. Some wastes could be disposed of without mixing them with water to begin with. In an interesting innovation, solids (sludge) could be removed before entering digesters and burned into a gas that could be used to run engines.<ref> Ken Stedman, 2007,{{ Micromedia Filtration Inc helps Gold Village Come Clean}},Press Release</ref> |
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Emerging disinfection technologies include ultrasound, pulse arc electrohydrolic discharge, and bank filtration.<ref>Jess C. Brown and Andrew Salveson,2007, {Emerging Disinfection Technologies}}Florida Resources Journal, July 6.</ref> |
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Another issue is concern about weakened mandates for pretreatment of industrial wastes before they are made part of the municipal waste stream.<ref>www.Sierraclub.org/cleanwater/reports_factsheets/factsgeet_bush_water_agenda.pdf</ref> |
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Some also believe that hospitals should treat their own wastes. |
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The safety of drinking reclaimed water which has been given advanced treatment and blended with other waters, remains controversial. |
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==Distribution and demand== |
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Reclaimed water is often distributed with a [[dual piping]] network that keeps reclaimed water pipes completely separate from potable water pipes. In the United States, reclaimed water is always distributed in [[lavender (color)|lavender]] (light purple) pipes to distinguish it from potable water. <ref>[http://www.sandiego.gov/water/recycled/regs.shtml Rules and Regulations for Reclaimed Water]. ''City of San Diego.'' [[31 January]] [[2007]].</ref> <ref>[http://pasco.ifas.ufl.edu/water_conservation-outdoor/purple_rain/purple_rain_education_prgm.htm Purple Rain Education Program]. ''Pasco County, Florida''. [[31 January]] [[2007]].</ref> |
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In many cities using reclaimed water, it is now in such demand that consumers are only allowed to use it on assigned days. Some cities that previously offered unlimited reclaimed water at a flat rate are now beginning to charge citizens by the amount they use.{{Fact|date=February 2007}} |
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==Worldwide acceptance== |
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The leaders in use of reclaimed water in the U.S. are Florida and California,<ref>[http://news.ufl.edu/2000/05/24/water/ UF Professor: Drought Highlights Value Of Reused Water]. [[University of Florida]] News. [[May 24]] [[2000]].</ref> with [http://www.irwd.com/Reclamation/index.php Irvine Ranch Water District] as one of the leading developers. They were the first district to approve the use reclaimed water for in-building piping and use in flushing toilets. |
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As [[Australia]] continues to battle the 7-10 year drought, nationwide, reclaimed effluent is becoming a popular option. Already three major and capital cities in Australia, have committed to adding reclaimed effluent to their dwindling dams, including [[Adelaide]], [[Brisbane]] and indirectly [[Sydney]]. Brisbane has been seen as a leader in this trend, and other cities and towns will review the '[[Western Corridor Recycled Water Project]]' once completed. Already Goulbourn, [[Canberra]], [[Newcastle, New South Wales|Newcastle]], and Regional [[Victoria, Australia]] are also considering building a reclaimed effluent process. |
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According to a EU-funded study "Europe and the Mediterranean countries are lagging behind" California, Japan or Australia "in the extent to which reuse is being taken up." According to the study "the concept (of reuse) is difficult for the regulators and wider public to understand and accept."<ref name="IWA"> "Reuse of water in the EU and the Mediterranean", by Bill McCann, Water 21, Journal of the International Water Association, April 2008, p. 42-44, quoting the [http://www.aquarec.com Aquarec project] </ref> |
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==Other alternatives== |
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In [[urban area]]s where [[climate change]] has threatened long-term water [[security]] and [[drought|reduced rainfall]] over catchment areas, using reclaimed water for indirect potable use may be superior to other water supply augmentation methods. One other commonly-used option is [[seawater]] [[desalination]]. Recycling wastewater and desalinating seawater may have many of the same disadvantages, including high costs of water treatment, infrastructure construction, and water transportation. Although the best option varies from region to region, desalination is often superior economically, as reclaimed water usually requires a [[dual piping]] network, often with additional [[water tower|storage tanks]], when used for nonpotable use. |
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A less elaborate alternative to reclaimed water is a [[greywater]] system. Greywater is wastewater that has been used in sinks, baths, showers, or washing machines, but does not contain sewage (see [[blackwater (waste)|blackwater]]). In a home system, treated or untreated greywater may be used to flush [[toilet]]s or for irrigation. <ref>[http://www.sydneywater.com.au/SavingWater/GreyWater/ Grey Water] ''SydneyWater.com.au'' [[31 January]] [[2007]].</ref> Some systems now exist which directly use greywater from a sink to flush a toilet<ref>[http://www.treehugger.com/files/2006/10/watersaver_tech.php WaterSaver Technologies Aqus Uses Sink Greywater for Toilet]. ''Treehugger.com''. [[October 7]] [[2006]]. Retrieved [[May 22]] [[2007]].</ref> or even combine the two into one piece of furniture<ref>[http://www.gaiam.com/retail/product/02-0334 Toilet Lid Sink]. Gaiam. Retrieved [[May 22]] [[2007]].</ref>. |
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Perhaps the simplest option is a [[rainwater harvesting]] system. Although there are concerns about the quality of rainwater in urban areas, due to [[air pollution]] and [[acid rain]], many systems exist now to use untreated rainwater for nonpotable uses or treated rainwater for direct potable use. There are also concerns about rainwater harvesting systems reducing the amount of run-off entering natural bodies of water. |
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==Some locations using reclaimed water== |
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===Indirect potable use=== |
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*[[Singapore]] (where it is branded as ''[[NEWater]]'') |
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*[[Payson, AZ]]<ref>[http://www.ci.payson.az.us/Departments/water/ResourceDevelopment/gvp-recharge.htm Green Valley Park Lakes Groundwater Recharge Project].</ref> |
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*The Torreele project in the [[Veurne]] coastal region of Belgium, which began operating in 2002 <ref name="IWA"/> |
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===Non-potable use=== |
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Austin, TX http://www.ci.austin.tx.us/wri/ |
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*[[Sydney, Australia]]<ref>[http://www.sydneywater.com.au/SavingWater/WhatSydneyWaterIsDoing/WaterReuseRecyclingProgram.cfm Sydney Water Recycling Projects]</ref> |
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*[[Tucson, Arizona]]<ref>[http://www.ci.tucson.az.us/water/reclaimed_water.htm Reclaimed Water]</ref> |
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*[[Clark County, Nevada]]<ref>[http://www.cleanwaterteam.com/waterreclamation.html Water Reclamation]</ref> |
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*[[Clearwater, Florida]]<ref>[http://www.clearwater-fl.com/gov/depts/pwa/public_utils/divisions/reclaimed/index.asp Making the Connections: Reclaimed and Drinking Water Supplies]</ref> |
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*[[St. Petersburg, Florida]]<ref>[http://www.stpete.org/wwwrecla.htm Water Systems Maintenance Mission Statement]</ref> |
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*[[San Diego, California]] ([[San Diego County]])<ref>[http://www.sandiego.gov/water/recycled Recycled Water]</ref> |
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*[[Contra Costa County, California]]<ref>[http://www.ddsd.org/services.html Delta Diablo Sanitation District, Eastern Contra Costa County]</ref> |
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*[[Caboolture]] and [[Maroochy]] (South East Queensland, Australia) LGA's currently provide Reclaimed water for industrial use (primarily capital works). Users must apply for a key to be able to access the compounds in which the outlets are located.<ref>[http://caboolture.qld.gov.au/services/water_sewerage/pdf/Application%20Form%20-%20Agreement%20For%20Access%20To%20Recycled%20Water%20Outlets.pdf Application form for access to Recycled Water (Caboolture)]</ref>{{Fact|date=February 2007}} |
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===Proposed=== |
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In some places, reclaimed water has been proposed for either potable or non-potable use: |
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*[[South East Queensland|South East]] [[Queensland]], Australia (planned for potable use as of late 2008) <ref>[http://www.abc.net.au/news/newsitems/200701/s1834825.htm Beattie scraps water poll amid 'Armageddon situation']. ''ABC News Online'' [[28 January]] [[2007]].</ref><ref>[http://www.abc.net.au/news/newsitems/200701/s1834978.htm Beattie defends recycled water against "scare mongers"]. ''ABC News Online'' [[26 January]] [[2007]].</ref> |
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*[[Newcastle, New South Wales|Newcastle]], New South Wales, Australia (proposed for non-potable use).<ref>[http://www.abc.net.au/news/newsitems/200607/s1690632.htm Recycling plant brings region closer to being drought proof]. ''ABC News'' [[19 July]] [[2006]].</ref> |
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*[[Canberra]], [[Australian Capital Territory]], Australia (proposed in January 2007 as a backup source of potable water)<ref>[http://www.abc.net.au/news/items/200701/1837477.htm?act Recycled water a step closer for Canberrans]. ''ABC News Online'' [[31 January]] [[2007]].</ref> |
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== Enterprises == |
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* {{flagicon|Canada}} [[Brac Systems]] - [[Canada]] |
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==[[Maximum Water Recovery]]== |
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There are various techniques that have been developed by researchers for maximum water reuse/reclamation/recovery strategies such as [[water pinch]] analysis. The techniques helps a user to target the minimum freshwater consumption and wastewater target. It also helps in designing the network that achieves the target. This provides a benchmark to be used by users in improving their water systems. |
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== See also == |
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{{portalpar|Water|Drinking water.jpg}} |
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*[[Dual piping]] |
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*[[Greywater]] |
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*[[NEWater]] |
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*[[Sewage treatment]] |
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*[[Water conservation]] |
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*[[Water filtration]] |
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*[[Water Pinch]] |
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*[[Water management hierarchy]] |
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*[[Cost effective minimum water network]] |
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==References== |
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<div class="references-small"> |
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<references/> |
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</div> |
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== External links == |
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*[http://waterwise.org.uk Waterwise] A not-for-profit, non-governmental organization dedicated to promoting the wise use of water |
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[[Category:Water supply]] |
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[[Category:Sewerage]] |
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[[he:קולחים]] |
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[[zh:中水]] |
Revision as of 14:36, 15 October 2008
poop wateru