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A bacteriological investigation of two leisure centre swimming pools disinfected with ozone

Published online by Cambridge University Press:  15 May 2009

T. D. Wyatt  and
T. S. Wilson
T. D. Wyatt
Affiliation:
Northern Ireland Public Health Laboratory, The Laboratories, Belfast City Hospital, Lisburn Road, Belfast BT9 7AD
T. S. Wilson
Affiliation:
Northern Ireland Public Health Laboratory, The Laboratories, Belfast City Hospital, Lisburn Road, Belfast BT9 7AD
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Summary

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A bacteriological study was carried out on the first Leisure Centre swimming pools in the United Kingdom to be disinfected with ozone/chlorine. Results suggested that a free chlorine concentration of approximately 0·8 mg/l was necessary to maintain the pools in a bacteriologically satisfactory condition. This amount of free chlorine was similar to that required when the pool was disinfected with chlorine alone. However, the associated amount of combined chlorine was much lower when disinfection was by ozone/chlorine and this gave more acceptable bathing conditions. Implications for the management of pools disinfected by this method are discussed.

Type
Research Article
Information
Journal of Hygiene , Volume 82 , Issue 3 , June 1979 , pp. 425 - 441
Copyright
Copyright © Cambridge University Press 1979

References

REFERENCES

Anon. (1976). Guideline: ‘Water treatment for swimming pool water, June 1972’ Archiv des Badewesens 29, 148. (O.A. Trans. 2086.)Google Scholar
Black, A. P., Keirn, M. A., Smite, J. J., Dykes, G. M. & Harlan, W. E. (1970). The disinfection of swimming pool water, Part II. A field study of the disinfection of public swimming pools. American Journal of Public Health 60, 740.CrossRefGoogle Scholar
Department of Environment (1975). The Purification of the Water of Swimming Pools. London: H.M.S.O.Google Scholar
Department of Health and Social Security (1969). The Bacteriological Examination of Water Supplies, Reports on Public Health and Medical Subjects No. 71, London: H.M.S.O.Google Scholar
Eichelsdorfer, D., Slovak, J., Dirnagl, K. & Schmid, K. (1976). Study of eye irritation caused by free and combined chlorine in swimming pool water. Archiv des Badewesens 29, 9. (O.A. Trans. 2061.)Google Scholar
German Association of Gas and Water Companies (1975). Ozone in water treatment. Brunnenbau, Bau von Wasserwerken, Rohrleitungsbau 26, 163. (O.A. Trans. 2063.)Google Scholar
Heintz, A. (1975). Hygiene and disinfection in baths—requirements and practical solution. Archiv des Badewesens 28, 578. (O.A. Trans. 2060.)Google Scholar
Herschman, W. (1976). Construction and operation of swimming pool water treatment plants according to the ‘guideline’. Archiv des Badewesens 29, 168. (O.A. Trans. 2086.)Google Scholar
Holden, W. S. (ed) (1970). Water Treatment and Examination. London: J. and A. Churchill.Google Scholar
Standridge, J. H. & Lesar, D. J. (1977). Comparison of four-hour and twenty-four-hour refrigerated storage of nonpotable water for faecal coliform analysis. Applied and Environmental Microbiology 34, 298.CrossRefGoogle ScholarPubMed
Technical Unit for Sport (1977). A survey of chemicals available for treating swimming pool water. Data sheet No. 71. The Sports Council, 70 Brompton Road, London, SW3 1EX.Google Scholar
Watts, D. (personal communication) Messrs Barr and Wray Ltd., 324 Drumoyle Road, Glasgow, G51 4DY, Scotland.Google Scholar