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On the one hand, population and economic growth are increasing the demand for water but on the other, environmental consequences of climate change, pollution and over extraction of groundwater are decreasing the worlds supply of fresh water. This makes the availability of water for human use one of the greatest global concerns of this century. Neither levelling growth nor technological innovation can stretch the existing supplies significantly; hence, it is imperative that demand side management techniques such as the use of water efficient fixtures in urban households, appropriate water tariff structure and regulatory policies are used as tools for water conservation. Conservation of water resources is one of the important aspects of ensuring sustainable development of cities and should incorporate environmental, social and economic dimensions. This book highlights the importance of using water efficiently in urban households, in both developed and developing cities. Specifically, the book focuses on: the determinants of water conservation behaviour, including psychological factors such as values, beliefs and attitudes, socio-economic factors such as income, water pricing and policies, environmental factors such as seasonal variations and demographic factors such as household size and age; the role of policies such as mandatory water restrictions, labelling of water saving devices and promotion of public awareness; the role of water and wastewater tariff structures in achieving the goals of revenue generation, affordability, demand management and equity and the design of conservation oriented rate structures; and the role of water saving devices in providing technological solutions to household water conservation.In relation to the above issues, the book provides several detailed case studies of cities to understand the effectiveness of such demand management tools and the lessons learnt. Overall, the book aims to provide a comprehensive overview of the various price and non-price tools that can be used to manage domestic water consumption. Water Conservation in Urban Households is a one-stop repository of information on water conservation for academics, practitioners and policy makers. The text can be used for teaching and research on water demand management as well as for professional reference by water utility officials. In addition, the appendix of the book contains a database of the current domestic water and wastewater tariffs and monthly bills of selected cities, which will be helpful for those willing to conduct research in this field.Author:Sonia Ferdous Hoque, University of Leeds, UK.

N-nitrosodimethylamine (NDMA) is a nitrogen-containing organic compound that has known carcinogenic properties. NDMA has been a health concern for some industries for a number of years as it is used in rubber formulations, as a fire retardant, antioxidant, additive for lubricants and softener of copolymers; it is also a degradation product of dimethylhydrazine, an additive to rocket fuel. Most people are exposed to NDMA via a number of diverse routes including cigarette smoke (actively or passively) and processed foods, for example smoked meat products. However, it has only come to the attention of the international water industry since it was recognised as a disinfection by-product (DBP) of chloramination or chlorination in the presence of ammonia. The aim of this guidance manual is to answer commonly asked questions about this emerging issue, such as:How do they come to be in drinking water and recycled water and what concentrations are "e;normal"e;?What regulatory/guidance levels have been imposed in Australia and elsewhere?How are they formed? What are the risk factors for the occurrence of nitrosamines in my system?What can we do to control them?What are the implications for the drinking and recycled water industry, and in particular for public health?This Guidance Manual has a companion document, Generic Management Plan for Nitrosamines in Drinking Water which provides provide background information on the group of organic contaminants, nitrosamines. This book is co-published with Water Research Australia.

This report provides a review of the literature on Cryptosporidium and helps to identify the findings and formulates the key research questions. It covers these central questions: What are the sources/carriers of human pathogenic strains and what are the key species for a range of catchments?What is the contribution of pre and post weaned cattle and sheep to catchment contamination?What data on animal management practices (including vegetation management of riparian zones) is available?What are the different climatic zones across catchments and how will this impact on the survival and transmission of Cryptosporidium?Co-published with WaterRA.

Climate change is reducing water resources in many parts of Australia. Increasingly, higher risk sources are either being developed or being considered for development as public drinking water sources. There is a rising demand from the community for additional recreation facilities and subsequent access to drinking water catchments, as they are predominantly close to urban areas. These competing factors place substantial pressure on public water utilities to ensure the provision of safe drinking water. As the health risk profile increases, there is a need for additional barriers which may include new or upgraded water treatment facilities. This report covers the methodological development in the WaterRA project Public Perception of Source Protection and Its Relationship to Recreation and Water Treatment. It aims to develop a nationally applicable methodology to assist in the formulation of defensible policy which provides for drinking water source protection while accounting for recreational needs in surface water catchments in Australia.This book is co-published withWater Research Australia.

Metals are inorganic substances that occur naturally in geological formations. Naturally occurring metals are dissolved in water when it comes into contact with rock or soil material. Some metals are essential for life and are naturally available in our food and water. Trace amounts of metals are common in water, and these are normally not harmful to your health. In fact, some metals are essential to sustain life. Calcium, magnesium, potassium, and sodium must be present for normal body functions. Cobalt, copper, iron, manganese, molybdenum, selenium, and zinc are needed. However many of the metals and metalloids that are found in drinking water can have an adverse impact on human health. This book provides a 'state-of-the-art' review of the health implications of metals and metalloids in drinking water and is a key reference in the risk assessment and management of water supplies. The increased urbanization and increased water demand in industrial areas has amplified the metals problem in groundwater sources. In fact the contamination of our water resources by poisonous metals occurs largely due to human activity. These activities include industrial processes, such as electronics industry and mining activity, agricultural activities, and the dumping of wastes in landfills.The International standard references concerning water resources are various and, though they are based on WHO guidelines, they are extremely diversified in relation to local issues and emerging problems. This report pulls the information together to provide an important reference source.

This publication examines the critical issues surrounding water security (water shortage, water excess, inadequate water quality, the resilience of freshwater systems), providing a rationale for a risk-based approach and the management of trade-offs between water and other (sectoral and environmental) policies.

New edition available September 2013 Institutional Governance and Regulation of Water Services provides the key elements of policy, governance and regulation necessary for sustainable water and sanitation services. On policy matters, it covers important aspects of separation of policy and delivery, integrated planning, sustainable cost recovery, provisions for the poor, and transparency. Regulation and Regulatory Bodies are presented in their various forms, with discussion of why some form of independent scrutiny is essential for sustainability. There is a separate chapter on Drinking Water Quality Regulation including setting standards and discussion on how to incorporate managing risk in regulatory approaches.It is the first book to give a comprehensive review of the key elements of policy, governance and regulation for sustainable water services, based on experience from around the world. The focus is on what works and what does not, based on consideration of basic principles and on case studies in both developing and developed countries. Institutional Governance and Regulation of Water Services is an invaluable information source for national and local governments responsible for water policy, for water utility managers, and for students who will be the policy makers of tomorrow. It should also be of value to all those concerned with water policy matters in donor agencies and international banks as well as for academics involved in the teaching of water policy, governance and regulation.About the author: Michael Rouse is a Distinguished Research Associate at the University of Oxford and manages the Institutional Governance and Regulation module of the University's MSc Course on Water Science, Policy and Management. He was formerly Head of the Drinking Water Inspectorate in London and has extensive knowledge and experience of water governance and regulation, including all aspects of audit and enforcement, and the governance issues related to both public sector management and privatisation. He has wide knowledge of water technical and operational matters, based on his applied research and development background at the Water Research Centre, where he spent 9 years as Managing Director. Michael has a good understanding of international water matters and advises governments on policy and regulation. He is a Past President of the International Water Association. He is a visiting professor at Tsinghua University in Beijing and at the Shanghai Academy of Social Science. In 2000 he was awarded the CBE (Commander of the British Empire) for his professional services.

Integrated Water Resources Management in a Changing World provides an overview on important issues concerning the conceptual framework of integrated water resources management (IWRM).

Making Space for the River examines the recent developments in river management that aim to green rivers, including increasing river discharge for flood management, enhancing natural and landscape values, promoting local or regional economic development, urban regeneration.

Water Services Management and Governance: Lessons for a Sustainable Future covers water supply mainly in urban communities, sanitation and pollution control and water resources and their linkages to water services.

Internal Corrosion Control of Water Supply Systems: Code of Practice establishes an international standard for the control of internal corrosion of water supply systems.

With the recent advent of improved analytical and biomarker detection capabilities, a variety of organic chemicals have been found in trace amounts (Trace Organic Chemicals, TOrCs) in surface waters and fish tissue. TOrCs include pharmaceuticals, personal care products, surfactants, pesticides, flame retardants, and other organic chemicals, some with unknown modes of action or effects. Identifying or predicting ecological effects of TOrCs in typical aquatic multi-stressor situations is challenging, requiring a variety of epidemiological tools that together, can diagnose effects at multiple scales of ecological organization. Five objectives were addressed in this research: (1) develop and apply a procedure to prioritize which TOrCs are of most concern; (2) develop and test a conceptual site screening framework; (3) evaluate and test diagnostic approaches to identify potential risks due to TOrCs using various case studies; (4) develop a relational database and user interface with which the water resource community can enter, store, and search TOrC exposure data in the U.S.; and (5) foster partnerships and transfer knowledge gained in this research to the water quality community. TOrC fate, effects, and occurrence data were compiled in a database for over 500 organic chemicals based on over 100 published studies representing more than 50 organizations and 700 sites. Alternative risk-based prioritization processes and draft lists of high priority TOrCs were developed. A preliminary site screening and diagnostic framework was developed and evaluated using seven different case study sites. EPA's causal analysis (stressor identification) procedures, Canada's Environmental Effects Monitoring (EEM) procedure, the ecosystem model CASM (Comprehensive Aquatic System Model), and several other specialized diagnostic tools were used and evaluated. A relational database based on Tetra Tech's EDAS2 was developed using the Microsoft platform. The modified version of EDAS2, built on the EPA WQX data model, provides web-based data queries using a combination of tabular data for downloads and a visual map interface that allows the user to view, query, and select sites from the map having chemical or biological data. The database is not discussed in this report but can be accessed through WERF.This Final Report summarizes all other approaches used and results obtained in this research, discusses critical data gaps and other important uncertainties, and provides testable hypotheses and recommendations for Phase 2 testing and analyses.

Detection of Pathogens in Water Using Micro and Nano-Technology aims to promote the uptake of nano-technological approaches by developing an integrated cost-effective nano-biological sensor for detection of bioterrorism and environmental assays.

The Best Practice Guide on the Control of Iron and Manganese in Water Supply provides state-of-the-art compilation of the range of scientific, engineering, regulatory and operational issues concerned with the control of iron and manganese in drinking water.

Metals and Related Substances in Drinking Water comprises the proceedings of COST Action 637 METEAU, held in Kristianstad, Sweden, October 13-15, 2010

Best Practice Guide on Sampling and Monitoring Metals in Drinking Water gives guidance on the design and quality control of sampling programmes for metals in Raw waters, in the water treatment works, in the drinking water distribution system and at the consumers tap.

Disasters and Minewater: Good Practice and Prevention draws together all of the major minewater catastrophes that have occurred over the last half century. It examines incidents to find useful and positive information of great value that could prevent future disasters.

Disinfection By-Products and Human Health provides drinking water professionals with a pragmatic assessment of the current evidence and emerging issues concerning DBPs and public health.

Water-Energy Interactions of Water Reuse covers the use of energy in conventional and advanced wastewater treatment for various water reuse applications, including carbon footprint, energy efficiency, energy self-sufficient facilities and novel technologies, such as microbial fuel cells and biogas valorisation.

Evolution of Water Supply Through the Millennia presents the major achievements in the scientific fields of water supply technologies and management throughout the millennia.

Cause and Prevention of Clogging of Wells Abstracting Groundwater from Unconsolidated Aquifers provides a comprehensive description of the various causes and processes associated with well clogging in addition to describing methodologies for diagnosis and prevention.

The Water Environment Research Foundation (WERF) Nutrient Challenge Research Program and the Water Environment Federation (WEF) cooperated in a comprehensive study of nutrient removal plants designed and operated to meet very low levels of effluent N and P. Both existing and new technologies are being adapted to meet requirements that are as low as 3 mg/L TN and 0.1 mg/L TP, and there is a need to define their capabilities and reliabilities in the real world situation of wastewater treatment plants. This effort focused on maximizing what can be learned from existing technologies in order to provide a database that will inform key decision makers about proper choices for both technologies and rationale bases for statistical permit writing. To this end, managers of 22 plants, 10 achieving low effluent TP, 9 achieving low effluent TN, and 3 achieving low effluent ammonia, were asked to provide 3 years of operational data that were analyzed using a consistent statistical approach. Technical papers were compiled for each plant including a summary of influent loading, process design and operating conditions, unusual events, upsets and anecdotes related to process operation, and the statistical summary of final effluent data that considered both process reliability and the permit limits applied. The first year of this effort culminated in a workshop held in Chicago at WEFTEC 2008 and the second year in a workshop held in Orlando at WEFTEC 2009.Technological conclusions that can be drawn from the study in terms of what can be learned by comparing the different nutrient removal processes employed at these 22 plants and several additional BNR facilities in Florida are described in joint manuscripts submitted by Parker et al (2009) and Bott et al (2009). In a parallel effort using the data and conclusions generated from this study, Neethling et al (2009) proposed a set of quantitative descriptors that attempt to define the nutrient removal performance in terms of effluent quality percentile statistics referred to as Technology Performance Statistics (TPSs). The TPSs were defined as three separate values representing the lowest, median, and reliably achievable performance (Neethling et al, 2009).

Stochastic Water Demand Modelling: Hydraulics in Water Distribution Networks describes the requirements of hydraulics in water quality modelling and provides insight into the development of detailed residential and non-residential water demand models.

This report provides an overview of the current public perception and public acceptance of biosolids recycling in North America. It provides conceptual models for understanding the development of current public perceptions, including the influence of many factors, technical issues, typical human responses, communications, information, politics, and social context. The report includes an annotated bibliography and narrative review of recent literature regarding public perceptions and public acceptance of biosolids recycling. Fourteen succinct case studies provide more detailed information on representative biosolids recycling program experiences. There are examples of biosolids management programs that have failed because of public controversy, as well as programs that have worked well, with community support. The report provides some strategies for evaluating public perception of a biosolids program and for selecting appropriate tools for public outreach and participation.

Of the total number of consumer product chemicals the U.S. Environmental Protection Agency has identified, approximately 500 are considered high production volume (HPV) chemicals. This study investigated the occurrence and fate of high production volume household chemicals in wastewater systems. The study was initiated with a comprehensive review on HPV organic chemicals in household commodities and their contributions to municipal wastewater treatment systems. The comprehensive review presented the basis to compile a database on HPV chemicals and organic compounds in household commodities that have the potential to affect wastewater processes and effluent qualities. The occurrence of select HPV target compounds during wastewater treatment was studied by collecting composite samples of raw sewage and final treated effluents at seven full-scale treatment plants employing different operational conditions. Of the 26 household chemicals targeted in this study, 20 compounds were consistently detected in raw influents of full-scale wastewater treatment plants. Chemicals that are primarily used in products applied outdoors were generally not present in raw influent samples. The majority of compounds present in personal care and cleaning products generally appeared in all influent samples with concentrations of 2-phenoxyethanol (a preservative with various uses) and menthol (a fragrance with various uses) consistently exhibiting the highest concentrations of all compounds. The efficacy of advanced wastewater treatment processes to achieve removal and destruction of selected target compounds was studied through controlled lab- and pilot-scale studies (i.e., MBR, ozone, AOP). In general, biological treatment resulted in partial or complete removal (>80%) indicating that biological treatment is a good treatment option for HPV household chemicals.

Aerobic Wastewater Treatment Processes: History and Development discusses the widely differing influences on the development of aerobic treatment such as water supply, toxic trade effluents, microscopy and population growth in urban areas.

Nanotechnology in Industrial Wastewater Treatment is a state of the art reference book. The book is particularly useful for wastewater technology development laboratories and organizations. All professional and academic areas connected with environmental engineering, nanotechnology based wastewater treatment and related product design are incorporated and provide an essentialresource. The book describes the application and synthesis of Ca-based and magnetic nano-materials and their potential application for removal/treatment of heavy metals from wastewater. Nanotechnology in Industrial Wastewater Treatment discusses the rapid wastewater treatment methods using Ca-based nanomaterials and magnetic nanomaterials. This is an emerging area of new science and technology in wastewater treatment. The main audiences for the book are water industry professionals, research scholars and students in the area of Environmental Engineering and Nanotechnology.Authors: Dr. Arup Roy Department of Mining Engineering, Geo-Environmental Lab., Indian Institute of Technology, Kharagpur,India; and Professor Jayanta Bhattacharya, Department of Mining Engineering, Geo-Environmental Lab., Indian Institute of Technology, Kharagpur, India.

The book provides insights into a range of aspects associated with alternative water supply systems and an evidence base (through case studies) on potential water savings and trade-offs. The information organized in the book is aimed at facilitating wider uptake of context specific alternatives at a decentralized scale mainly in urban areas.

Mass Flow and Energy Efficiency of Municipal Sewage Treatment Plant describes the mass flow and transfer of major pollutants and energy efficiency of municipal sewage treatment plants, which is studied and undertaken as part of the R & D program of Public Utilities Board (PUB) Singapore.