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Journal Article

Citation

Edwards P, Durand M, Hollister M, Green J, Lutchmun S, Kessel A, Roberts I. Arch. Dis. Child. 2011; 96(12): 1097-1102.

Affiliation

Faculty of Epidemiology and Population Health, London School of Hygiene & Tropical Medicine, London, UK.

Copyright

(Copyright © 2011, BMJ Publishing Group)

DOI

10.1136/archdischild-2011-300606

PMID

21937486

Abstract

ObjectiveTo quantify the effects of a thermostatic control system in social (public) housing on the prevalence of dangerous (>60°C) water temperatures and on fuel consumption.DesignPair-matched double-blind cluster randomised controlled trial.SettingSocial housing in a deprived inner-London borough.Participants150 households recruited as clusters from 22 social housing estates. Four small estates were combined into two clusters (resulting in a total of 10 pairs of clusters).InterventionSocial housing estate boiler houses were randomised to a thermostatic control sterilisation programme (heating water to 65°C during 00:00-06:00 h and to 50°C from 06:00 to 00:00 h daily) or to standard control (constant temperature 65°C).Main outcome measuresWater temperature over 60°C ('dangerous') after running taps for 1 min and daily fuel consumption (cubic feet of gas).Results10 clusters (80 households) were allocated to the sterilisation programme and 10 clusters (70 households) to control, of which 73 and 67 households, respectively, were analysed. Prevalence of dangerous (>60°C) hot water temperatures at 1 min was significantly reduced with the sterilisation programme (mean of cluster prevalence 1% in sterilisation programme group vs 34% in control group; absolute difference 33%, 95% CI 12% to 54%; p=0.006). Prevalence of high (>55°C) hot water temperatures at 1 min was significantly reduced (31% sterilisation vs 59% control; absolute difference 28%, 95% CI 9% to 47%; p=0.009). Gas consumption per day reduced more in the control group than in the sterilisation programme group, although not statistically significantly (p=0.125).ConclusionsThe thermostatic control with daily sterilisation was effective in capping hot water temperatures and therefore reduced scald risk. Although expected to save energy, fuel consumption was increased relative to the control group.Trial registrationClinicalTrials.gov ID: NCT00874692.


Language: en

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