Raw water is water found in the environment that has not been treated and does not have any of its minerals, ions, particles, bacteria, or parasites removed. Raw water includes rainwater, ground water, water from infiltration wells, and water from bodies like lakes and rivers.

Raw water is generally unsafe for human consumption due to the presence of contaminants. A major health problem in some developing countries is use of raw water for drinking and cooking.[1]

Without treatment, raw water can be used for irrigation, construction, or cleaning purposes.[2] Farmers use it for watering their crops and give it to livestock to drink, storing it in man-made lakes or reservoirs for long periods of time. Construction industries can use raw water for making cement or for damping down unsealed roads to prevent dust rising. Raw water can also be used for flushing toilets and washing cars, as well as any other purposes that do not require it to be consumed by humans. Water in this form is considered raw, as opposed to water which has been treated before consumption, such as drinking water or water which has been used in an industrial process, such as waste water.

Raw water flushing is a method of water conservation where raw water is used for flush toilets.

Composition

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The composition of raw water is naturally variable, but commonly contains one or more of the following significant contaminants, in the form of dissolved ions, particles and living organisms:[3]

Other, less common, contaminants of raw water include:

These contaminants can be harmful to humans if they drink raw water containing them, or if the water is not treated properly before consumption. The contaminants can also have an effect on the local ecosystem. For example, endocrine disrupting chemicals can have harmful effects on fish populations living in natural lakes and rivers.[7] These growing health concerns have led to the development of guidelines, such HACCP (Hazard Analysis and Critical Control Points), for the production of safe drinking water from wastewater and raw water, and research into sustainable water supply alternatives.[8][9]

Treatment

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Water treatment plant of Bragança, Portugal

Raw water can be used for many purposes, such as cooling water, water for rinsing and chemical production, purified water, and drinking water.[10] However, due to the possible contaminants, raw water must be treated before it is allowed for human consumption or industrial use.[11] There are several steps involved in the treatment of raw water, and different methods in which it can take place.

Reverse osmosis

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Reverse osmosis has been used for the production of demineralised water for over 30 years.[10] In reverse osmosis, water is transported across a membrane under high pressure, leaving a product that consists mainly of water and a concentrate containing most other components such as minerals and unwanted residues.[12] Many contaminants, including iron, manganese, ammonium, traces of pesticides and medicines, organic micro pollutants, and radioactive particles can be removed with reverse osmosis alone.[4][12] This efficiency has made reverse osmosis the primary method of water purification, often being used in combination with other methods, as a final treatment. A downside to reverse osmosis is that the removing of most minerals from water can have negative effects on its taste.[12] Minerals are sometimes added to drinking water that was already filtered to improve its taste.

Conventional pre-treatment

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The conventional treatment method for water purification is a complex, multistage process that was used for many years.[10] It generally consists of five primary steps.[11] First, raw water is adjusted for alkalinity and pH with the addition of hydrated lime and carbon dioxide. Second, particulate matter is congregated with aluminum sulphate and other coagulants, such as polymers, which the water flows in a cascade that mixes the chemicals and raw water with the coagulants. Third, the water is slowly mixed in clarifiers where larger particles settle down to the bottom and are periodically removed (sedimentation). Fourth, water is directed from the clarifiers to the filters (e.g. anthracite and sand filter) to entrap any smaller particles that survived the clarification process. Finally, sodium hydroxide is added to adjust the final pH/alkalinity, sodium hypochlorite for disinfection and fluoride for fluoridation. This process is often used as a pre-treatment method while another processes, such as reverse osmosis, is used for the final treatment.[10] A disadvantage of this method is its use of chemicals, such as ozone, flocculents, hydrogen peroxide, lime, and chlorine for the filtration process.[10] These chemicals could be dangerous if used incorrectly or if they remained in the water after complete treatment. This requires special precautions, and each step of the process has to be controlled to achieve an overall optimal performance.[10] The need for a complex control system for conventional treatment can result in it being financially costly.[10] This has led to the development of alternative pre-treatment and treatment methods for raw water.

Ultrafiltration

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Drinking water treatment of 300 m3/h using ultrafiltration in Grundmühle waterworks (Germany)

Ultrafiltration is a membrane filtration process and provides an alternative to conventional pre-treatment.[10] In this method water is only pre-filtered with a common screen filter before being filtered at high pressure through a membrane, separating the water from contaminants within it. Ultrafiltration can be used on its own for water purification or as a pre-treatment for reverse osmosis. Its advantages over conventional pre-treatment include: very high water quality independent of the contaminants in the initial raw water, a plant that is simpler in design and more flexible, which makes it easier to automate, lower use of chemicals, and final product free of viruses and microorganisms.

Biofilm pre-treatment and Bio-diatomite Dynamic Membrane Reactor

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The biofilm membrane filtration method is used to remove harmful chemical by-products, such as NH4+-N, total nitrogen, and dissolved organic matter, that could form from disinfection processes.[13] Biofilm Pre-treatment is a necessary step for water treatment in many parts of world due to its low operation cost and effectiveness at pollutant removal. In this process microorganisms remove contaminants in raw and wastewater that are harmful to humans, but nutrients to them.[13] Bio-diatomite dynamic membrane reactor filtration combines dynamic membrane technology for wastewater treatment, and microbial colonies that form diatomite particles to purify water.[14] These methods are under development in China as part of addressing the country's pollution problems.

Turbidity

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Turbid water

Turbidity is how murky or hazy water seems due to suspended particles. The more suspended particles, the higher the turbidity. Turbidity is used to visually measure water quality, being most common in unfiltered raw water.[15] High amounts of turbidity in raw water can occur due to:[15]

  • Increased flow due to heavy rain fall
  • Spring turnover of water masses
  • Bank erosion
  • Sediment resuspension in shallow areas
  • Temporary increase from the more turbid areas

Turbidity and health concerns

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During high turbidity peaks, pathogens are more commonly found in raw water. This can contribute to the spread of illnesses.[16] When turbidity increases, reported hospital visits for the elderly (65+) with gastrointestinal illnesses also increase. Even places with water filtration systems that meet standards can have an endemic of gastrointestinal illness, or waterborne infectious diseases. Those hospitalized represent a small percentage of total morbidity caused by these illnesses.[9]

Controlling turbidity

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Controlling the land surrounding raw water reservoirs and other sources is key to reducing turbidity. Areas of high sediment resuspension and erosion need attending regularly, and screens and other devices are needed to catch suspended particles. Screens that trap particles and debris must be cleaned consistently. Flushing out water pumps should be done when demand is lowest. This gives time for the water to settle, and decrease turbidity before is it needed in high amounts. "Turbidity reduction is best achieved when the water is run through a series of chemical and physical treatment methods before reaching the filter".[17]

 
Waterside of Saint Lawrence River near Kamouraska

Raw water dieting

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Around 2017, untreated spring water, described as "naturally probiotic" raw water, became a commercial product distributed through health food shops, but experts have raised public health concerns about the possible occurrence of harmful bacteria, viruses, and parasites such as Giardia. The products are associated with a fad diet of "raw water fasting",[18][19] reportedly finding purchase among the "health-conscious elite" of Silicon Valley, including figures such as the raw vegan founder of Juicero Doug Evens.[20][21] One doctor compared the movement's rejection of established science to the anti-vaccination movement.[22] One raw water business in the United States has even claimed that methods used by bottled and spring water producers could change the molecular structure of water.[23][24]

The fad was mocked on The Daily Show in April 2018 in a segment that included an interview with Marion Nestle.[25][26]

See also

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References

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  1. ^ Huq, A; et al. (July 1996). "A simple filtration method to remove plankton-associated Vibrio cholerae in raw water supplies in developing countries". Applied and Environmental Microbiology. 62 (7): 2508–2512. Bibcode:1996ApEnM..62.2508H. doi:10.1128/AEM.62.7.2508-2512.1996. PMC 168033. PMID 8779590.
  2. ^ Perth W.A. (2016) What is Raw Water?. Vintage Road Haulage. http://www.vintageroadhaulage.com.au/faq/what-is-raw-water/
  3. ^ Safe Drinking Water Committee (1980), "Raw water quality", Drinking Water and Health, vol. 2, National Academies, pp. 7 et seq
  4. ^ a b Manu, A., Santhanakrishnan, V., Rajaram, S., & Ravi, P. M. (2014). Concentration of natural radionuclides in raw water and packaged drinking water and the effect of water treatment. Journal of Environmental Radioactivity, 138, 456-459
  5. ^ Happonen, M., Koivusalo, H., Malve, O., Perkola, N., Juntunen, J., & Huttula, T. (2016). Contamination risk of raw drinking water caused by PFOA sources along a river reach in south-western finland. Science of the Total Environment, 541, 74-82
  6. ^ Falconer, I. R. (2006). Are Endocrine Disrupting Compounds a Health Risk in Drinking Water? International Journal of Environmental Research and Public Health, 3(2), 180–184
  7. ^ Mills, L. J., & Chichester, C. (2005). Review of evidence: Are endocrine-disrupting chemicals in the aquatic environment impacting fish populations? Science of the Total Environment, 343(1–3), 1-34
  8. ^ Dewettinck T, van Houtte E, Geenens D, van Hege K, Verstraete W. HACCP (Hazard analysis and critical control points) to guarantee safe water reuse and drinking water production. A case study. Water Sci. Technol. 2001; 43: 31–38
  9. ^ a b Rodriguez, C., Van Buynder, P., Lugg, R., Blair, P., Devine, B., Cook, A., & Weinstein, P. (2009). Indirect Potable Reuse: A Sustainable Water Supply Alternative. International Journal of Environmental Research and Public Health, 6(3), 1174–1209
  10. ^ a b c d e f g h Clever, M., Jordt, F., Knauf, R., Räbiger, N., Rüdebusch, M., & Hilker-Scheibel, R. (2000). Process water production from river water by ultrafiltration and reverse osmosis. Desalination, 131(1–3), 325-336
  11. ^ a b Bertone, E., Stewart, R. A., Zhang, H., & O'Halloran, K. (2016). Hybrid water treatment cost prediction model for raw water intake optimization. Environmental Modelling & Software, 75, 230-242
  12. ^ a b c Vingerhoeds, M. H., Nijenhuis-de Vries, M. A., Ruepert, N., van der Laan, H., Bredie, W. L. P., & Kremer, S. (2016). Sensory quality of drinking water produced by reverse osmosis membrane filtration followed by remineralisation. Water Research, 94, 42-51
  13. ^ a b Yang, G., Feng, L., Wang, S., Zhou, J., Guo, C., Xia, T., Sun, W., Jiang, Y., Sun, X., Cao, Lian., Xu, X., Zhu, L. (2015). Potential risk and control strategy of biofilm pretreatment process treating raw water. Bioresource Technology, 198, 456-463
  14. ^ Chu, H., Cao, D., Dong, B., & Qiang, Z. (2010). Bio-diatomite dynamic membrane reactor for micro-polluted surface water treatment. Water Research, 44(5), 1573-1579
  15. ^ a b Gauthier, V., Barbeau, B., Tremblay, G., Millette, R., & Bernier, A. (2003). Impact of raw water turbidity fluctuations on drinking water quality in a distribution system. Journal of Environmental Engineering and Science, 2(4), 281-291
  16. ^ Schwartz, J., Levin, R., & Goldstein, R. (2000). Drinking water turbidity and gastrointestinal illness in the elderly of Philadelphia. Journal of Epidemiology and Community h, 54(1), 45–51
  17. ^ Satterfield, Z. (2006). Turbidity Control. Tech Brief, 6(2), 1-4
  18. ^ Bever, Lindsey. "Why 'raw water' could help you lose weight, in a bad way",Sydney Morning Herald, 4 January 2018.
  19. ^ Mosia,Lebohang. "Why is there such a thirst among influencers for ‘raw water’?", Independent Online, 10 November 2022.
  20. ^ Turton, William. "The Juicero founder is really into raw water", Vice News, 7 March 2018.
  21. ^ Mole, Beth. "Meet “raw” water—ludicrously priced unfiltered water with random bacteria", Ars Technica, 2018.
  22. ^ Morris, David Z. "Silicon Valley’s Next Big Idea: Untreated Drinking Water", Fortune.com, 31 December 2017.
  23. ^ Bever, Lindsey (4 January 2018). "'Raw water' is the latest health craze. Here's why drinking it may be a bad idea". Washington Post. Retrieved 4 January 2018.
  24. ^ Bowles, Nellie (29 December 2017). "Unfiltered Fervor: The Rush to Get Off the Water Grid". The New York Times.
  25. ^ "Video: A Deep Dive into the "Raw Water" Craze - The Daily Show with Trevor Noah (Video Clip)". Comedy Central. 18 April 2018. Archived from the original on April 22, 2018.
  26. ^ "A Deep Dive Into The "Raw Water" Craze — The Daily Show (YouTube)". YouTube. 30 March 2022.

Additional sources

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