Water contamination emergencies : collective responsibility

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Searching... PSZ JB	30000010210670	TD419.5 I575 2009	Open Access Book	Proceedings, Conference, Workshop etc.	Searching... Unknown
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In the current international situation, the ability to deal effectively with water contamination emergencies is of rapidly increasing importance. The third in a series of conference proceedings, this book brings together contributions from leading scientists and experts in industry and academia. It offers an international perspective and develops the themes of the previous volumes entitled Water Contamination Emergencies: Can we cope? and Water Contamination Emergencies: Enhancing our response. The full range of potential chemical, microbiological and radiological contamination scenarios are addressed from the perspective of medical and health professionals, water companies and regulators, environmental protection professionals, risk and business continuity managers, emergency planners, local authorities, service and support providers, detection and equipment suppliers, disaster recovery specialists, water security experts, water distribution modellers and laboratories involved in round the clock emergency response. Emphasis is placed on the considerable effort required to prepare for and respond to an emergency. It is not sufficient for Individuals to simply identify their own responsibilities, they must also take action to establish effective and efficient working relationships with the other parties involved. In other words, they must take "Collective Responsibility". In summary, this book will provide readers with an up-to-date view of current strategies and the collaboration essential for an appropriate and timely response to water contamination emergencies.

Author Notes

John Gray spent 22 years working in UK Water Companies on all aspects of water treatment, supply and analysis. This was followed by 13 years as a regulator before retirement in 2007 from his position as Deputy Chief Inspector (Operations) with the Drinking Water Inspectorate. He has been involved in improving the safety and security of drinking water supplies and has established links with other Government Departments, academia and research organizations involved in "homeland defence" issues both in the UK and internationally. He was closely involved in the development of the specialized analytical capability for the water industry. Actively involved with the Royal Society of Chemistry, John Gray was for six years a member of the Applications Committee followed by seven years with the Ethical Practices Committee. He chaired of the organizing committee of the three Water Contamination Emergencies conferences. Professor Thompson has 37 years experience in the management of environmental laboratories including those at Severn Trent and Yorkshire Water. He is currently Chief Scientist of ALcontrol UK, one of the largest contract water, soil, air and food analysis organizations in Europe. Since its inception in 1995, he has chaired the UK Water Laboratory Mutual Aid Group and been closely involved with the three associated sub-groups on emergency organic and radioactivity analysis and the LEAP emergency incident proficiency scheme. He was Secretary of the organizing committee of the three Water Contamination Emergencies conferences.

J. GrayG. NicholsK.I. GillH. J. Allen and R. C. Haught and D. A. MackeB. Nguyen - presented and Hao-Nhien PhamB. C. PickardM. J. Rink and S. A. EvansD. Kroll and K. King and G. KleinR. Bradshaw and S. J. T. Pollard and D. I. Jalba and J. W. Charrois and S. E. Hrudey and N. J. CromarW. Einfeld and S. A. McKenna and M. P. WilsonI.H. GriffithsK. SilcockS.J. Treado and M.A. Kedzierski and V.J. GallardoP. MillsJ. J. DanneelsG. HowardR. GreavesR. Binetti and P. Olivier and L. Meucci and L. CappuccioJ. van den BroekeD.J.Squirrell and M.A. Lee and P. WakeleyA. J. Charlton and J. A. Donarski and B. D. May and K. C. ThompsonH. Clay-ChapmanN. R. Pacey and J. CobbK.C. ThompsonI. PiersonJ. Brown and B.T. Wilkins and D. HammondE. MilksP. FentonM. McGuinnessK. FoxV. MurrayD. A. WoolloffS.L. Cunningham and B.M. DowlingR. Carr and S. Ibbotson and VSG MurrayP. A. Nsiah-KumiP. L. MeinhardtJ. B. ShawB.H. MacGillivrayM. FurnessJ. Gray

Introduction: Themes and Objectives	p. 1
Water Emergencies: Opening remarks	p. 4
Water is life: a view of organisational resilience in the Australian water industry	p. 9
Online toxicity monitors and their use in distribution system and watershed early warning systems	p. 22
Water supply security issues and trends	p. 36
Consequence management within the Environmental Protection Agency's water security initiative	p. 44
Application of a risk based approach to security and integrity of assets - a regulators view	p. 55
Let's get real. Real world experiences with real-time on-line monitoring for security and quality. Detecting and responding to events.	p. 68
The organisational culture of managing incidents and risks in the water sector	p. 82
A simulation tool for contaminant warning system design and evaluation	p. 117
CBRN modelling: application to water contamination	p. 128
Planning, preparedness and security of the alternative water supply	p. 139
Procedures for the decontamination of building plumbing systems	p. 155
Lessons learned from summer floods 2007. Phase 1 report - Emergency response prepared by Water UK's Review Group on flooding	p. 166
Risk assessment methodology for water utilities - RAM-W™ - lessons learned	p. 192
Risk-based approaches to water quality management: integrating public health metrics in water safety planning	p. 198
How standards can assist the assessment of, recovery and prevention of future emergencies	p. 207
The XX edition of the Torino Olympic Games experience: planning for and responding to drinking water contamination threats	p. 218
Sensitive, selective and simple UV-spectrometry for contaminant alarm systems	p. 229
Fully automated instrumentation for nucleic acid testing in the field	p. 238
Optimisation of NMR methodology for non-targeted detection of water contaminants	p. 245
Preventing water contamination - a co-ordinated response	p. 252
Potential sources of man-made radiochemical contamination of water resources with special emphasis on the nuclear fuel cycle	p. 260
Rapid methods	p. 267
Processing and databasing spectroscopic analyses and its use in the elucidation of unkowns	p. 293
Handbooks to assist in the management of a radiological incident involving the contamination of drinking water supplies	p. 296
Robust on-line total organic carbon (TOC) analyser for security monitoring	p. 306
Water UK emergency planning	p. 313
The Scottish Waterborne Hazard Plan	p. 316
Research related to water security	p. 320
Early warning and reports	p. 325
OK, we've got a problem, so who do we tell? Inter-agency communication - a water company view	p. 337
Review and evaluation of water concentration technologies for analysis by realtime PCR	p. 342
Scientific and Technical Advisory Cell (STAC) - getting timely public health advice to multi-agency frontline responders	p. 353
Communicating with the public during water contamination events: addressing vulnerable populations	p. 360
Medical preparedness for water contamination events	p. 369
Keeping the public on-side and maintaining reputation	p. 383
Sociological and psychological constraints to learning from failure	p. 389
Lessons learned from major contamination incidents - a discussion	p. 397
Review of conference	p. 401
List of posters	p. 405
Subject Index	p. 407

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Table of Contents