04488nam 2200649 450 991081170900332120230729143903.01-68015-564-41-78040-479-4(CKB)2550000001203089(EBL)3120505(SSID)ssj0001192536(PQKBManifestationID)11702953(PQKBTitleCode)TC0001192536(PQKBWorkID)11227997(PQKB)10611620(MiAaPQ)EBC3120505(MiAaPQ)EBC5290419(Au-PeEL)EBL5290419(EXLCZ)99255000000120308920230729d2013 uy 0engur|n|---|||||txtccrOptimisation of corrosion control for lead in drinking water using computational modelling techniques /Colin Hayes [and four others]1st ed.London, England :IWA Publishing,[2013]©20131 online resource (67 p.)Metals and related substances in drinking water : research report seriesDescription based upon print version of record.1-78040-478-6 1-306-41304-4 Includes bibliographical references.""Cover ""; ""Copyright""; ""Contents""; ""Foreword""; ""Acknowledgements""; ""Disclaimers""; ""Executive Summary""; ""Chapter 1: Introduction""; ""1.1 Corrective Water Treatment for Reducing Lead in Drinking Water""; ""1.2 Regulatory Background in the United States and the Need for Further Optimisation of Plumbosolvency Control""; ""1.3 Regulatory Background in Canada and the Need for Further Optimisation of Plumbosolvency Control""; ""1.4 Optimisation of Plumbosolvency Control in the United Kingdom and the Use of Computational Modelling Techniques""""1.5 Project Outline, Objectives and Benefits""""Chapter 2: Description of the computational compliance models""; ""2.1 Introduction""; ""2.2 The Single Pipe Model""; ""2.3 The Zonal Modelling Framework""; ""2.4 Simulating Sampling""; ""Chapter 3: Simulation of water flow in a pipe using computational fluid dynamics""; ""3.1 Introduction""; ""3.2 The Fluid Flow Equations and their Computational Solution""; ""3.3 Comparison of Plug and Laminar Flow Along a Straight Pipe""; ""3.4 Application of Volumetric Profiles""; ""Chapter 4: Calibration and validation""; ""4.1 Introduction""""4.2 Calibration""""4.3 Validation""; ""Chapter 5: Case study: City A (US)""; ""5.1 Background""; ""5.2 Calibration and Use of the Lead Emission Model""; ""5.3 Results""; ""5.4 Discussion""; ""5.5 Conclusions""; ""Chapter 6: Case study: City B (CA)""; ""6.1 Background""; ""6.2 Calibration and Use of the Lead Emission Model""; ""6.3 Results""; ""6.4 Discussion""; ""6.5 Conclusions""; ""Chapter 7: Case study: City C (US)""; ""7.1 Background""; ""7.2 Assessment of Lead Data from Sequential Sampling Surveys""; ""7.3 Lead Service Lines and Plumbosolvency Characterisation""; ""7.4 Modelling""""7.5 Discussion""""7.6 Conclusions""; ""Chapter 8: Investigations into sequential sampling""; ""8.1 Introduction""; ""8.2 Sequential Sampling Surveys in Cities A, B and C""; ""8.3 Modelling Zonal Compliance""; ""8.4 Using Reynoldâ€?s Number""; ""8.5 Modelling Sequential Sampling at a Single House""; ""Chapter 9: Discussion""; ""9.1 The Use of Modelling in the Optimisation of Plumbosolvency Control""; ""9.2 Regulatory Aspects""; ""9.3 Operational Aspects""; ""9.4 Risk Assessment""; ""9.5 The Way Forward""; ""Chapter 10: Conclusions""; ""Chapter 11: References""""Appendix 1: Calibration data""""Appendix 2: Examples of model output""Metals and related substances in drinking water series.Drinking waterLead contentData processingWaterPurificationLead removalWater-pipesCorrosionData processingDrinking waterLead contentData processing.WaterPurificationLead removal.Water-pipesCorrosionData processing.628.168Hayes Colin216686MiAaPQMiAaPQMiAaPQBOOK9910811709003321Optimisation of corrosion control for lead in drinking water using computational modelling techniques4002514UNINA