Download Free Residential Water Demand And Economic Development Book in PDF and EPUB Free Download. You can read online Residential Water Demand And Economic Development and write the review.

This detailed study of the use of water at different price levels by residential consumers in the Toronto-centred region from Hamilton to Oshawa challenges the basis of our present urban water supply policy. Adoption of the recommendations presented would mean higher prices to householders, but a considerable saving of hundreds of millions of tax dollars over the next three decades. The present policy uses a 'requirement approach' in which future water needs are calculated by extrapolation of past trends and an assumption that demand is inelastic. This leads to excessive levels of water use and over-investment in water supply, sewage collection, and treatment systems. The resultant misallocation of resources can be corrected by adoption of a demand/management approach in which investment policy is guided by consumer demand and alternative pricing arrangements are used as a management tool. Dr. Grima examines several alternative choices for management, such as metering, increasing marginal prices, sewerage charges, seasonal charges, and an increasing price block schedule, and describes the results of each. Water managers in Canada are strongly challenged to begin a fundamental rethinking of their basic policies. (Department of Geography Research Publication 7)
The purpose of this book is to develop a general economic model which integrates the quantity and quality issues of water resource management and to provide, along with a detailed criticism of the policy instruments now in use, alternative proposals concerning the efficient allocation and distribution of water. In particular we treat water as a multi-product commodity where the market plays a major role in determining water quality-discriminant pricing and its value to the user. We examine the process of moving from administrative allocation and regulation to privatization of the water industry as the key element in promoting effective competition and in providing economic incentives for greater efficiency. Water quantity and quality, considered independently of each other, have been the subject of numerous studies during the last twenty years. Let us recall briefly the most outstanding among them. A variety of models have been constructed concerning the optimal scheduling and sequence of water-supply projects: dynamic programming for solving multi-bjective functions in water resource development; planning models for coordinating regional water-resource supply and demand, etc. Other studies have devised water-quality management models, including multi-period design of regional or municipal wastewater systems; cost-allocation methods to induce effluent dischargers to participate in regional water systems; models to predict the quality of effluent (in particular, whether it meets certain established standards); models for finding optimal waste-removal policies at each of the polluting sources, and so on.
A common characteristic of water demand in urban areas worldwide is its inexorable rise over many years; continued growth is projected over coming decades. The chief influencing factors are population growth and migration, together with changes in lifestyle, demographic structure and the possible effects of climate change (the detailed implications of climate change are not yet clear, and anyway will depend on global location, but must at least increase the uncertainty in security of supply). This is compounded by rapid development, creeping urbanization and, in some places, rising standards of living. Meeting this increasing demand from existing resources is self-evidently an uphill struggle, particularly in water stressed/scarce regions in the developed and developing world alike. There are typically two potential responses: either "supply-side" (meeting demand with new resources) or "demand-side" (managing consumptive demand itself to postpone or avoid the need to develop new resources). There is considerable pressure from the general public, regulatory agencies, and some governments to minimise the impacts of new supply projects (e.g. building new reservoirs or inter-regional transfer schemes), implying the emphasis should be shifted towards managing water demand by best utilising the water that is already available. Water Demand Management has been prepared by the academic, government and industry network WATERSAVE. The concept of the book is to assemble a comprehensive picture of demand management topics ranging from technical to social and legal aspects, through expert critical literature reviews. The depth and breadth of coverage is a unique contribution to the field and the book will be an invaluable information source for practitioners and researchers, including water utility engineers/planners, environmental regulators, equipment and service providers, and postgraduates. Contents Water consumption trends and demand forecasting techniques The technology, design and utility of rainwater catchment systems Understanding greywater treatment Water conservation products Water conservation and sewerage systems An introduction to life cycle and rebound effects in water systems Developing a strategy for managing losses in water distribution networks Demand management in developing countries Drivers and barriers for water conservation and reuse in the UK The economics of water demand management Legislation and regulation mandating and influencing the efficient use of water in England and Wales Consumer reactions to water conservation policy instruments Decision support tools for water demand management
This study deals with the place of urban public water supplies in economic development and with the demand for such elements of the social infrastructure during the process of economic and social growth.
The purpose of this study is to build upon and extend previous water conservation research efforts of price and nonprice conservation programs on residential water demand in different urban areas of the southwestern United States. The primary research objectives are to: (1) develop residential water demand models to examine the effectiveness of price and nonprice programs; (2) develop and document a database of residential water demand in selected study ares; (3) evaluate the effectiveness of price and nonprice conservation programs using the water demand models and database developed for this study; and (4) examine the applicability of extending regional water demand relationships and results of conservation program effectiveness to other cities in the region. Specific issues examines on regional, seasonal and individual city basis include: How responsive are consumers to changes in the price of water?; are consumers responding to the average price, marginal price, or some combination of the two?; How does demand change or respond to implementation of nonprice conservation program? Is it appropriate to model and apply results on effectiveness to other cities in the region? The scope in terms of number and cross section of cities, detail of observations (monthly time periods), length of time covered and inclusion of price and nonprice programs combined with the analytical techniques used, contribute to making his one of the most comprehensive studies conducted on residential water use and the effectiveness of conservation programs. The research techniques and results of this evaluation will benefit water utilities and consumers through lower costs and more secure water supplies because of improved understanding and better planning and implementation of residential price, rate structure and nonprice conservation programs.
This book is the result of a joint research effort led by the U.S. National Academy of Sciences and involving the Royal Scientific Society of Jordan, the Israel Academy of Sciences and Humanities, and the Palestine Health Council. It discusses opportunities for enhancement of water supplies and avoidance of overexploitation of water resources in the Middle East. Based on the concept that ecosystem goods and services are essential to maintaining water quality and quantity, the book emphasizes conservation, improved use of current technologies, and water management approaches that are compatible with environmental quality.