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Optimising sustainability, performance and public health protection in the design and operational life cycle of sports and leisure pool complexes

This thesis presents a new framework that enables a better integrated and industry-wide approach to the sustainable design and operation of swimming pools in the UK. The framework addresses current issues in the swimming industry by proposing a restructuring of the regulatory and guidance structure to make use of existing pieces of UK legislation. A combination of a new approved code of practice for swimming pools incorporating risk-based assessments and changes to existing approved documents for building efficiency is proposed as an effective method of engaging all stakeholders. The industrial setting of the research enabled a practical evaluation of the current UK guidance and regulation. The need for additional performance indicators to improve the management of compliance with recommendations is identified. The Water Exchange Deficit is proposed as a new performance indicator to support the water management of a facility. In addition, the relationship between activity type and the impact on water quality is examined and discussed. An enhanced methodology for the prediction of the water demand of a facility has also been generated. This methodology incorporates newly published findings in relation to the nature of bather contamination and operational variables relating to evaporation rates and chemical dosing. In addition to the contributions above, the modelling of pool hydraulics was also undertaken to assess operational consequences of the existing implementation of industry guidance. A fundamental conflict was identified between the two key recommendations that should be adopted in relation to the design of pool hydraulics. Computational fluid dynamics and small-scale physical modelling approaches were used to show that the use of well-mixed hydraulics is effective at distributing chemicals but can also potentially increase the risk of exposure to disinfectant-resistant pathogens. The availability of new treatment technologies may present the opportunity for wholesale changes to the overall strategy of pool water treatment.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:675282
Date January 2015
CreatorsLewis, Lowell J.
ContributorsPond, K. ; Chew, J. ; Colbourne, J. ; Woodley, I.
PublisherUniversity of Surrey
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Sourcehttp://epubs.surrey.ac.uk/808719/

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