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Principles of Desalination, Part A, Second Edition is a collection of papers that describes the design of distillation and dual-purpose plants, what desalination can and cannot accomplish in an economical way. One paper discusses techniques toward a rapid and direct way of optimizing the economic performance of sea water conversion systems, incurring capital and continuing costs of operation (for example, transformer equipment, filtration devices, and chemical preparation). Another paper considers the general system and internal system engineering of distillation. Designing distilling plants involves the selection of process parameters, cycle determination, and calculation of water costs. The different types of evaporators are the boiling-type, the flash type, the vapor compression, the combination plant cycles, and the power plant make-up evaporators. Commercial sea water desalination plants incorporate multistage flash evaporators or multieffect vertical-tube or horizontal-tube evaporators. The problem of energy supply to these plants can be solved by a combined generation of electricity and low pressure steam. When the generation of electricity and low pressure steam are combined, the extra fuel demand for electricity generation over the fuel demand for low pressure steam generation only, is less than that for electricity generation alone. This book is suitable for economists, environmentalists, ecologists, and policy makers involved in energy conservation, agricultural development, and water management.
Principles of Desalination, Second Edition, Part B focuses on the processes that remove salt and other minerals from saline water. This book consists of five chapters. Chapter 7 focuses on the conversion of saline water to fresh water by freezing, while Chapter 8 describes "hyperfiltration, which is the separation of salts and other low- molecular-weight solutes from solvent by passage under pressure through a selective membrane. The processes, equipment, control devices, and chemical products involved in ultrapure water are outlined in Chapter 9. Chapter 10 covers the mineral-scale problem, chemistry of alkaline scaling, physical factors in scale deposition, and techniques for scale abatement and control. The conversion of radiant energy into forms useful for desalination is elaborated in the last chapter. This publication is a good source for students and researchers conducting work on the principles of desalination.
Application of advanced computer-oriented techniques are necessary in the synthesis, design analysis and operation of a complex integrated plant to produce power and freshwater, by desalting seawater or brackish water, at higher efficiency and lower cost. These are the two vital commodities to maintains sustainability of life, particularly in the arid regions where natural freshwater supply is either totally lacking or has become scarce. Even in the regions with polluted water resources, such a system is required to support life. At the same time, the available energy should be put to maximum use and life-cycle analysis is essential to ensure sustainability of the systems. The contributors of this book, experts in their own respective fields, outline the various techniques enriched by their experience. The contents of the book would, therefore, be of great interest not only to designers and operators of dual-purpose power-desalination plants but also to educators and researchers as well serve as a valuable source of information to those engaged in other areas of processing industry. The book is motivated by the growing importance of integrated power and desalination plants in general and in their respective regions in particular, and the long felt need for an authoritative book on the subject. After a long gap of more than two decades following the publication of "Principles of Desalination" Spiegler and Laird in 1980, this book would be a welcome addition to the literature in the field to serve as a valuable guide and reference to all those who are concerned with the integration of power and desalination plants. It will also serve as a valuable source of information to those in the processing industry in general.
Industrial desalination of sea and brackish water is becoming an essential part in providing sustainable sources of fresh water for a larger number of communities around the world. Desalination is a main source of fresh water in the Gulf countries, a number of the Caribbean and Mediterranean Islands, and several municipalities in a large number of countries. As the industry expands there is a pressing need to have a clear and well-written textbook that focuses on desalination fundamentals and other industrial aspects.This book focuses on the processes widely used in industry, which include multistage flash desalination and reverse osmosis. Also, other desalination processes with attractive features and high potential are featured. It includes a large number of solved examples, which are explained in simple and careful matter that allow the reader to follow and understand the development. The data used in the development of the examples and case studies are extracted from existing desalination plants.This title also includes comparisons of model predictions against results reported in literature as well as available experimental and industrial data. Several industries include similar unit operation processes, i.e., evaporators, condensers, flashing units, membrane separation, and chemical treatment. Examples of such industries include wastewater treatment, food, petroleum, petrochemical, power generation, and pulp and paper. Process fundamentals and design procedures of such unit processes follow the same procedures given in this textbook.
An in-depth guide to reverse osmosis desalination This Water Environment Federation and WateReuse Association publication provides comprehensive information on the planning and engineering of brackish and seawater desalination projects for municipal water supplies. After a brief overview of widely used desalination technologies, Desalination Engineering focuses on reverse osmosis desalination. The book discusses basic principles, planning and environmental review of projects, design and selection of key desalination plant components, desalinated water posttreatment, and concentrate management. Guidelines on sizing and cost estimation of desalination plant facilities are also included in this practical resource. COVERAGE INCLUDES: Source water quality characterization Fundamentals of reverse osmosis desalination Planning considerations Environmental review and permitting Intakes for source water collection Intake pump stations Source water screening and conditioning Sand removal, sedimentation, and dissolved air flotation Pretreatment by granular media filtration Pretreatment by membrane filtration Comparison of granular media and membrane pretreatment Reverse osmosis separation Post-treatment of desalinated water Desalination plant discharge management Desalination project cost estimates
During the past 20 years, the field of mechanical engineering has undergone enormous changes. These changes have been driven by many factors, including: the development of computer technology worldwide competition in industry improvements in the flow of information satellite communication real time monitoring increased energy efficiency robotics automatic control increased sensitivity to environmental impacts of human activities advances in design and manufacturing methods These developments have put more stress on mechanical engineering education, making it increasingly difficult to cover all the topics that a professional engineer will need in his or her career. As a result of these developments, there has been a growing need for a handbook that can serve the professional community by providing relevant background and current information in the field of mechanical engineering. The CRC Handbook of Mechanical Engineering serves the needs of the professional engineer as a resource of information into the next century.
Principles of Water Treatment has been developed from the best selling reference work Water Treatment, 3rd edition by the same author team. It maintains the same quality writing, illustrations, and worked examples as the larger book, but in a smaller format which focuses on the treatment processes and not on the design of the facilities.
Sustainable Energy Technologies for Seawater Desalination provides comprehensive coverage of the use of renewable energy technologies for sustainable freshwater production. Included are design concepts for desalination and sustainable energy technologies based on thermodynamics, heat transfer, mass transfer and economics. Key topics covered include desalination fundamentals and models, desalination assessments using energy and exergy methods, economics of desalination and the optimization of renewable energy-driven desalination systems. Illustrative examples and case studies are incorporated throughout the book to demonstrate how to apply the concepts covered in practical scenarios. Following a coherent approach, starting from fundamentals and basics and culminating with advanced systems and applications, this book is relevant for advanced undergraduate and graduate students in engineering and non-engineering programs. Provides a comprehensive resource on sustainable freshwater production Describes how to analyze renewable energy-based desalination using energy and exergy methods and economic assessments, and how to carry out performance optimization Incorporates numerous examples and case studies to illustrate practical applications Presents the most up-to-date information with recent developments
There has been an exponential increase in desalination capacity both globally and nationally since 1960, fueled in part by growing concern for local water scarcity and made possible to a great extent by a major federal investment for desalination research and development. Traditional sources of supply are increasingly expensive, unavailable, or controversial, but desalination technology offers the potential to substantially reduce water scarcity by converting the almost inexhaustible supply of seawater and the apparently vast quantities of brackish groundwater into new sources of freshwater. Desalination assesses the state of the art in relevant desalination technologies, and factors such as cost and implementation challenges. It also describes reasonable long-term goals for advancing desalination technology, posits recommendations for action and research, estimates the funding necessary to support the proposed research agenda, and identifies appropriate roles for governmental and nongovernmental entities.