Water chlorination
Water chlorination is the process of adding
History
In a paper published in 1894, it was formally proposed to add chlorine to water to render it "germ-free". Two other authorities endorsed this proposal and published it in many other papers in 1895.[4] Early attempts at implementing water chlorination at a water treatment plant were made in 1893 in Hamburg, Germany. In 1897 the town of Maidstone, England was the first to have its entire water supply treated with chlorine.[5]
Permanent water chlorination began in 1905, when a faulty slow sand filter and a contaminated water supply caused a serious typhoid fever epidemic in Lincoln, England.[6] Alexander Cruickshank Houston used chlorination of the water to stop the epidemic. His installation fed a concentrated solution of so-called "chlorinated lime" (a mixture of calcium hypochlorite, calcium hydroxide and calcium chloride) to the water being treated. This was not simply modern calcium chloride, but contained chlorine gas dissolved in lime-water (dilute calcium hydroxide) to form calcium hypochlorite (chlorinated lime). The chlorination of the water supply helped stop the epidemic and as a precaution, the chlorination was continued until 1911 when a new water supply was commissioned.[7]
The first continuous use of chlorine in the
The technique of purification of drinking water by use of compressed liquefied chlorine gas was developed by a British officer in the Indian Medical Service, Vincent B. Nesfield, in 1903. According to his own account, "It occurred to me that chlorine gas might be found satisfactory ... if suitable means could be found for using it.... The next important question was how to render the gas portable. This might be accomplished in two ways: by liquefying it, and storing it in lead-lined iron vessels, having a jet with a very fine capillary canal, and fitted with a tap or a screw cap. The tap is turned on, and the cylinder placed in the amount of water required. The chlorine bubbles out, and in ten to fifteen minutes the water is absolutely safe. This method would be of use on a large scale, as for service water carts."[11]
Major Carl Rogers Darnall, Professor of Chemistry at the Army Medical School, gave the first practical demonstration of this in 1910.[12] This work became the basis for present day systems of municipal water purification. Shortly after Darnall's demonstration, Major William J. L. Lyster of the Army Medical Department used a solution of calcium hypochlorite in a linen bag to treat water.[citation needed]
For many decades, Lyster's method remained the standard for U.S. ground forces in the field and in camps, implemented in the form of the familiar Lyster Bag (also spelled Lister Bag). The canvas "bag, water, sterilizing" was a common component of field kitchens, issued one per 100 persons, of a standard 36-gallon capacity that hung from an often-improvised tripod in the field. In use from World War I through the Vietnam War, it has been replaced by reverse osmosis systems that produce potable water by pressure straining local water through microscopic-level filters: the Reverse Osmosis Water Purification Unit (1980) and the Tactical Water Purification System (2007) for large-scale production, and the Light Water Purifier unit for smaller-scale needs that includes ultrafiltration technology to produce potable water from any source and uses automated backwash cycles every 15 minutes to simplify cleaning operations.[citation needed]
Chlorine gas was first used on a continuing basis to disinfect the water supply at the Belmont filter plant, Philadelphia, Pennsylvania by using a machine invented by Charles Frederick Wallace[citation needed] who dubbed it the Chlorinator. It was manufactured by the Wallace & Tiernan company beginning in 1913.[13] By 1941, disinfection of U.S. drinking water by chlorine gas had largely replaced the use of chloride of lime.[14][15]
Biochemistry
As a
By far most chlorine is
As a strong
Principles
When dissolved in water, chlorine converts to an equilibrium mixture of chlorine, hypochlorous acid (HOCl), and hydrochloric acid (HCl):
- Cl2 + H2O ⇌ HOCl + HCl
In acidic solution, the major species are Cl
2 and HOCl, whereas in alkaline solution, effectively only ClO− (hypochlorite ion) is present. Very small concentrations of ClO2−, ClO3−, ClO4− are also found.[18]
Shock chlorination
As an alternative to shock chlorination, some swimming pools are chlorinated by use of a chlorine-generating filter that electrolyzes common salt. Pools chlorinated by this method generally have lower levels of chlorine and, in the surrounding air, less gaseous chloramine than directly chlorinated pools. Such pools are called saltwater pools.[citation needed]
Drawbacks
Disinfection by chlorination can be problematic in some circumstances. Chlorine can react with naturally occurring
There are also other concerns regarding chlorine, including its volatile nature which causes it to disappear too quickly from the water system, and organoleptic concerns such as taste and odor.[citation needed]
Dechlorinator
A dechlorinator is a chemical additive that removes
Some compounds employed in commercial dechlorinators are sodium thiosulfate, sodium hydroxymethanesulfonate, and sodium hydroxymethane sulfinic acid.[citation needed]
See also
- Alternative methods for water disinfection
- Drinking water
- Safe Drinking Water Act
- Sodium dichloroisocyanurate, the chemical in chlorination tablets
- Sodium hypochlorite
- Sterilization (microbiology)
- Trichloroisocyanuric acid a.k.a. Symclosene, the chemical in chlorination tablets
- Water filter
- Water fluoridation
- Water industry
- Water pollution
- Water purification
- Water supply network
- Water treatment
References
- ^ Matthews, Dylan (13 November 2021). "How a simple solution slashed child mortality in rural Kenyan villages". Vox. Retrieved 15 November 2021.
- ^ PMID 35417116.
- ^ "Disinfection with Chlorine | Public Water Systems | Drinking Water | Healthy Water | CDC". www.cdc.gov. 10 October 2018. Retrieved 30 April 2020.
- ^ F.E. Turneaure; and H.L. Russell (1901). Public Water-Supplies: Requirements, Resources, and the Construction of Works (1st ed.). New York: John Wiley & Sons. p. 493.
- ^ "Typhoid Epidemic at Maidstone". Journal of the Sanitary Institute. 18: 388. October 1897.
- ^ "A miracle for public health?". Retrieved 17 December 2012.
- ^ Reece, R.J. (1907). "Report on the Epidemic of Enteric Fever in the City of Lincoln, 1904-5." In Thirty-Fifth Annual Report of the Local Government Board, 1905-6: Supplement Containing the Report of the Medical Officer for 1905-6. London: Local Government Board.
- ^ Leal, John L. (1909). "The Sterilization Plant of the Jersey City Water Supply Company at Boonton, N.J." Proceedings American Water Works Association. pp. 100-9.
- ^ Fuller, George W. (1909). "Description of the Process and Plant of the Jersey City Water Supply Company for the Sterilization of the Water of the Boonton Reservoir." Proceedings AWWA. pp. 110-34.
- ^ Hazen, Allen. (1916). Clean Water and How to Get It. New York: Wiley. p. 102.
- .
- PMID 19599675.
- ^ "Wallace & Tiernan Corporation Incorporated Corporate Materials" (PDF). Retrieved 7 November 2023.
- ^ Hodges, L. (1977). Environmental Pollution (2nd ed.). New York: Rinehart and Winston. p. 189.
- ^ Baker, Moses N. (1981). The Quest for Pure Water: the History of Water Purification from the Earliest Records to the Twentieth Century. 2nd Edition. Vol. 1. Denver: American Water Works Association. p. 341-342.
- ^ PMID 10717366.
- ^ Kleijnen, R.G. (16 December 2011). The Chlorine Dilemma (PDF). Eindhoven University of Technology. Archived from the original (PDF) on 22 February 2014. Retrieved 18 January 2014.[page needed]
- .
- ^ Public Health Statement: Bromoform & Dibromochloromethane, ATSDR, 2011[full citation needed]
- ISBN 9780470051030.
- ^ Seyffarth, Keith. "Dechlorination - The First Tank Guide - Preparing Your Tap Water for Aquarium Use". First Tank Guide. Retrieved 15 February 2017.