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| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Water and Wastewater Treatment Technologies Nicholas P Cheremisinoff, 2001-12-17 This Handbook is an authoritative reference for process and plant engineers, water treatment plant operators and environmental consultants. Practical information is provided for application to the treatment of drinking water and to industrial and municipal wastewater. The author presents material for those concerned with meeting government regulations, reducing or avoiding fines for violations, and making cost-effective decisions while producing a high quality of water via physical, chemical, and thermal techniques.Included in the texts are sidebar discussions, questions for thinking and discussing, recommended resources for the reader, and a comprehensive glossary.Two companion books by Cheremisinoff are available:Handbook of Air Pollution Control Technologies, and Handbook of Solid Waste Management and Waste Minimization Technologies.* Covers the treatment of drinking water as well as industrial and municipal wastewater* Cost-efficiency considerations are incorporated in the discussion of methodologies* Provides practical and broad-based information in one comprehensive source |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Wastewater and Biosolids Treatment Technologies Nicholas P. Cheremisinoff, 2003 Industry consultant Cheremisinoff reviews the technologies used in wastewater treatment plants and biosolids/sludge handling operations. Articles on different technologies are presented in an encyclopedic format and offer information applicable to planning and troubleshooting facilities. Also included is a glossary containing short working definitions of technical terms used in treatment operations. Annotation copyrighted by Book News, Inc., Portland, OR |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Wastewater and Biosolids Treatment Technologies Nicholas P. Cheremisinoff, 2002 Wastewater treatment plants are complex and their design varies significantly depending upon the nature of water being treated and intended objectives of the treatment facility. This book provides a concise and up-to-date summary of the technologies available in this field. The reader will obtain: (1) a working knowledge of the major technology options from concise summary articles; (2) recommended resources for more in-depth information; and (3) an extensive glossary containing more than 1000 water treatment engineering terms. It is a practical desk reference and an up-to-date source of information for the planning and troubleshooting managers and wastewater treatment plant operators. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Water and Wastewater Treatment Technologies Nicholas P Cheremisinoff, 2002 An Overview of Water and Wastewater; What Filtration Is All About; Chemical Additives that Enhance Filtration; Selecting the Right Filter Media; What Pressure- and Cake-Filtration Are All; Cartridge and Other Filters Worth Mentioning; What Sand Filtration is All About; Sedimentation, Clarification, Flotation, and Membrane Separation Technologies; Ion Exchange and Carbon Adsorption; Water Sterilization Technologies; Treating the Sludge; Glossary; Index. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook Of Water And Wastewater Treatment Technologies (Hb) Cheremisinoff, 2002-01-01 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Solid Waste Management and Waste Minimization Technologies Nicholas P Cheremisinoff, 2003-01-10 Handbook of Solid Waste Management and Waste Minimization Technologies is an essential tool for plant managers, process engineers, environmental consultants, and site remediation specialists that focuses on practices for handling a broad range of industrial solid waste problems. In addition to equipment and process options, the author presents information on waste minimization practices that can be used in conjunction with or can provide alternatives to equipment and process investments. Environmental cost accounting measures and energy-efficient technologies are provided. Valuable information for those concerned with meeting government regulations and with the economic considerations (such as fines for violations and cost-effective methods) is presented in a practical manner. Included in the text are sidebar discussions, questions for thinking and discussion, recommended resources for the reader (including Web sites), and a comprehensive glossary. Two companion books by Cheremisnoff are available: Handbook of Water and Wastewater Treatment Technologies, and Handbook of Air Pollution Control Technologies. - Covers leading edge technology and standard equipment for managing industrial solid waste problems - Valuable in meeting government regulations - Presents in-depth analysis of the financial impact of alternative technologies available |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Biological Wastewater Treatment, Revised and Expanded Carlos D.M. Filipe, C.P. Leslie Grady, Jr., 1998-10-15 Written by noted experts in the field sharing extensive academic and industrial experience, this thoroughly updated Second Edition covers commonly used and new suspended and attached growth reactors. The authors discuss combined carbon and ammonia oxidation, activated sludge, biological nutrient removal, aerobic digestion, anaerobic processes, lagoons, trickling filters, rotating biological contactors, fluidized beds, and biologically aerated filters. They integrate the principles of biochemical processes with applications in the real world-communicating approaches to the conception, design, operation, and optimization of biochemical unit operations in a comprehensive yet lucid manner. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Industrial Combustion Pollution and Control Jr., Charles E. Baukal, 2003-10-15 This reference overflows with an abundance of experimental techniques, simulation strategies, and practical applications useful in the control of pollutants generated by combustion processes in the metals, minerals, chemical, petrochemical, waste, incineration, paper, glass, and foods industries. The book assists engineers as they attempt to meet e |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Hydraulic Fracturing Operations Nicholas P. Cheremisinoff, Anton Davletshin, 2015-01-28 Hydraulic fracturing, commonly referred to as “fracking,” is a technique used by the oil and gas industry to mine hydrocarbons trapped deep beneath the Earth’s surface. The principles underlying the technology are not new. Fracking was first applied at the commercial level in the United States as early as 1947, and over the decades it has been applied in various countries including Canada, the UK, and Russia. The author worked with engineering teams as early as the mid-1970s in evaluating ways to improve oil recovery from this practice. By and large fracking was not an economically competitive process and had limited applications until the early 2000s. Several factors altered the importance of this technology, among them being significant technological innovations in drilling practices with impressive high tech tools for exploration, well construction and integrity, and recovery along with discoveries of massive natural gas reserves in the United States and other parts of the world. These factors have catapulted the application of the technology to what is best described as the gold rush of the 21st century, with exploration and natural gas plays proceeding at a pace that seemingly is unrivaled by any historical industrial endeavor. But this level of activity has invoked widespread criticism from concerned citizens and environmental groups in almost every nation across the Globe. This outstanding new volume offers the industry a handbook of environmental management practices that can mitigate risks to the environment and, through best practices and current technologies, to conform to the current standards and regulations that are in place to provide the world with the energy it needs while avoiding environmental damage. For the new hire, veteran engineer, and student alike, this is a one-of-a-kind volume, a must-have for anyone working in hydraulic fracturing. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Combustion and Incineration Processes Walter R. Niessen, 2002-02-28 Covering each aspect of an incineration facility, from contaminant receipt and storage to stack discharge and dispersion, this reference explores the operation and evaluation of incineration systems for hazardous and non-hazardous gaseous, liquid, sludge, and solid wastes. Highlighting breakthroughs in air pollution control, the book discusses adva |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Subject Guide to Books in Print , 1997 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Remediation Engineering of Contaminated Soils Donald L. Wise, 2000-07-25 Offers thorough coverage of the remediation of soils contaminated by hazardous wastes, including materials, analytical techniques, cleanup design and methodology, characterization of geomedia, monitoring of contaminants in the subsurface, and waste containment. Cites specific case studies in hydrocarbon remediation that offer a concise overview of possible technological approaches. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Polymer Degradation S. Halim Hamid, 2000-06-30 Covers recent advances in polymer degradation and stabilization. Focuses on the basics of photo- and bio-degradability. Delineates special and general environmental parameters such as solar irradiation, temperature, and agrochemical exposure. Surveys plastic waste disposal strategies such as recycling, incineration, chemical recovery by pyrolysis, and source reduction. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Spreadsheets for MBBR Process Design Calculations Harlan Bengtson, 2017-01-17 Background description of MBBR (moving bed biofilm reactor) wastewater treatment process as an attached growth process using plastic carriers on which the biofilm grows. Flow diagrams are shown for BOD removal and for nitrification, including single stage and two stage processes. Discussion of process design calculations, including the surface area loading rate (SALR) and its use to calculate the carrier surface area needed and the MBBR tank volume needed. Example process design calculations are included for a single stage BOD removal MBBR process, a two stage BOD removal MBBR process, a two stage MBBR process for BOD removal and nitrification and for a single stage nitrification MBBR process. Each of the example calculations includes a screenshot of a spreadsheet for carrying out the MBBR process design calculation for that example. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Chemical Degradation Methods for Wastes and Pollutants Matthew A. Tarr, 2003-08-08 Chemical Degradation Methods for Wastes and Pollutants focuses on established and emerging chemical procedures for the management of pollutants in industrial wastewater and the environment. This reference offers an in-depth explanation of the degradation process, mechanisms, and control factors affecting each method, as well as issues crucial to the application of these approaches in real-world treatment sites. It examines ten of the most common and useful chemical technologies for environmental remediation and sanitation of industrial waste streams and offers implementation guidelines and examples of remediation strategies that are crucial to effective wastewater cleansing. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Bioremediation of Contaminated Soils Donald L. Wise, 2000-06-09 This volume focuses on innovative bioremediation techniques and applications for the cleanup of contaminated media and sites. It includes quantitative and design methods that elucidate the relationships among various operational parameters, and waste chemistry that defines the cost effectiveness of bioremediation projects. It also presents numerical models. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Separation Methods for Waste and Environmental Applications Jack Watson, 1999-05-18 Relates how to remove contaminants from effluent streams. The book discusses separation of environmental pollutants - enriching, stripping, clarification, benefication, remediation, removal, concentration, purification, and more - and critiques both tried-and-true and newer methods. It covers classical as well as newly emerging means of separating industrial waste and by-products from environmental streams. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Book Review Index , 2004 Every 3rd issue is a quarterly cumulation. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: American Book Publishing Record , 2003 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Small & Decentralized Wastewater Management Systems Ronald W. Crites, George Tchobanoglous, 1998-04-02 Decentralized Wastewater Management presents a comprehensive approach to the design of both conventional and innovative systems for the treatment and disposal of wastewater or the reuse of treaded effluent. Smaller treatment plants, which are the concern of most new engineers, are the primary focus of this important book. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Pollution Control Handbook for Oil and Gas Engineering Nicholas P. Cheremisinoff, 2016-04-20 This is a major new handbook that covers hundreds of subjects that cross numerous industry sectors; however, the handbook is heavily slanted to oil and gas environmental management, control and pollution prevention and energy efficient practices. Multi-media pollution technologies are covered : air, water, solid waste, energy. Students, technicians, practicing engineers, environmental engineers, environmental managers, chemical engineers, petroleum engineers, and environmental attorneys are all professionals who will benefit from this major new reference source. The handbook is organized in three parts. Part A provides an extensive compilation of abbreviations and concise glossary of pollution control and engineering terminology. More than 400 terms are defined. The section is intended to provide a simple look-up guide to confusing terminology used in the regulatory field, as well as industry jargon. Cross referencing between related definitions and acronyms are provided to assist the user. Part B provides physical properties and chemical safety information. This part is not intended to be exhaustive; however it does provide supplemental information that is useful to a number of the subject entries covered in the main body of the handbook. Part C is the Macropedia of Subjects. The part is organized as alphabetical subject entries for a wide range of pollution controls, technologies, pollution prevention practices and tools, computational methods for preparing emission estimates and emission inventories and much more. More than 100 articles have been prepared by the author, providing a concise overview of each subject, supplemented by sample calculation methods and examples where appropriate, and references. Subjects included are organized and presented in a macropedia format to assist a user in gaining an overview of the subject, guidance on performing certain calculations or estimates as in cases pertinent to preliminary sizing and selection of pollution controls or in preparing emissions inventories for reporting purposes, and recommended references materials and web sites for more in-depth information, data or computational tools. Each subject entry provides a working overview of the technology, practice, piece of equipment, regulation, or other relevant issue as it pertains to pollution control and management. Cross referencing between related subjects is included to assist the reader to gain as much of a practical level of knowledge. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Human Activity and the Environment , 2005 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Sci-tech News , 2003 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Biological Wastewater Treatment C. P. Leslie Grady Jr., Glen T. Daigger, Nancy G. Love, Carlos D. M. Filipe, 2011-05-09 Following in the footsteps of previous highly successful and useful editions, Biological Wastewater Treatment, Third Edition presents the theoretical principles and design procedures for biochemical operations used in wastewater treatment processes. It reflects important changes and advancements in the field, such as a revised treatment of the microbiology and kinetics of nutrient removal and an update of the simulation of biological phosphorous removal with a more contemporary model. See what’s new in the Third Edition: A chapter devoted to the description and simulation of anaerobic bioreactors Coverage of applications of submerged attached growth bioreactors Expanded discussion of modeling attached growth systems Increased information on the fate and effects of trace contaminants as they relate to xenobiotic organic chemicals A chapter on applying biochemical unit operations to design systems for greater sustainability The book describes named biochemical operations in terms of treatment objectives, biochemical environment, and reactor configuration; introduces the format and notation used throughout the text; and presents the basic stoichiometry and kinetics of microbial reactions that are key to quantitative descriptions of biochemical operations. It then examines the stoichiometry and kinetics used to investigate the theoretical performance of biological reactors containing microorganisms suspended in the wastewater. The authors apply this theory to the operations introduced, taking care to highlight the practical constraints that ensure system functionality in the real world. The authors focus on further biochemical operations in which microorganisms grow attached to solid surfaces, adding complexity to the analysis, even though the operations are often simpler in application. They conclude with a look to the future, introducing the fate and effects of xenobiotic and trace contaminants in wastewater treatment systems and examining how the application of biochemical operations can lead to a more sustainable world. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Books in Print Supplement , 2002 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Solid Waste Management and Waste Minimization Technologies Nicholas P Cheremisinoff, 2003-01-10 Table of contents |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Biotechnology for Waste and Wastewater Treatment Nicholas P. Cheremisinoff, 1997-12-31 This book examines the practices used or considered for biological treatment of water/waste-water and hazardous wastes. The technologies described involve conventional treatment processes, their variations, as well as future technologies found in current research. The book is intended for those seeking an overview to the biotechnological aspects of pollution engineering, and covers the major topics in this field. The book is divided into five major sections and references are provided for those who wish to dig deeper. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Biological Wastewater Treatment C. P. Leslie Grady, Henry C. Lim, 1980 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Microplastic Pollution Mohd. Shahnawaz, Charles Oluwaseun Adetunji, Mudasir Ahmad Dar, Daochen Zhu, 2024-04-22 This edited volume covers cutting-edge research on different facets of microplastic pollution at the global level. The book describes different types of microplastics, their sources, transportation, extraction, identification, deleterious effects (on flora and fauna) and various mitigation measures. This book discusses recent advances in microplastic pollution and suggests future research directions to mitigate microplastic at the global level. It constitutes six important sections to report different facets of microplastic pollution. Section 1 deals with microplastic types, sources, uses and transport from land to aquatic environment; Section 2 reports detection, collections, extraction and identification of different types of microplastic from various polluting sites; Section 3 suggests cleaning drives for the removal of microplastic from the polluting sites; Section 4 highlights the impact of microplastic waste on flora and fauna in both terrestrial and aquatic environments; Section 5 enlists various microplastic degradation approaches to mitigate microplastic; and Section 6 discusses recent regulations/policies to minimize microplastic generation, followed by future research directions to mitigate microplastic pollution at global level. This book is of interest and useful to professionals working on microplastic mitigation, environment protection and waste management, NGOs and policymakers. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Practical Principles of Ion Exchange Water Treatment Dean L. Owens, 1985-01-01 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Pollution Prevention and Cleaner Production Vol. 2: Best Practices in the Wood and Paper Industries Nicholas P Cheremisinoff, Paul E. Rosenfeld, 2009-12-04 This new Handbook provides a series of reference guides to cleaner production methods, technologies, and practices for key industry sectors. Each volume covers, for each industry sector: * the manufacturing technologies * waste management * pollution * methods for estimating and reporting emissions * treatment and control technologies * worker and community health risk exposures * cost data for pollution management * cleaner production and prevention alternatives Best Practices in the Wood and Paper Industries provides an overview of the forestry, wood preserving, pulp and paper industries and identifies the key environmental aspects, supported by case studies of major incidents. It provides general explanations of the major unit operations and processes in pulp and paper mills and wood treating plants, covering new trends alongside traditional methods. The environmental issues regarding air, water and solid waste are all addressed, identifying all US plants and their TRI data, and the authors provide calculation methods for properly accounting for air emissions and P2 practices to reduce them. - Provides guidelines on cleaner production and pollution prevention practices for improving overall environmental performance - Discusses emerging technologies and processes for cleaner air - Contains an Inventory of Chemical Toxicity Properties |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Green Profits Nicholas P Cheremisinoff, Avrom Bendavid-Val, 2001-05-17 Green Profits covers two tightly connected topics, environmental management systems (EMS) and pollution prevention (P2), in a single volume. Authored by an environmental engineer and an economist/planner, Green Profits shows how to implement an EMS, especially ISO 14001, so that it leads to profitable pollution prevention innovations, and how to identify and implement pollution prevention measures in a sound strategic business framework. Green Profits provides the knowledge and tools for enterprise managers to achieve the benefits of both EMS and P2, and to do so in ways that fit in with existing management systems in their enterprises.Environmental management systems are planned and organized ways for an enterprise to manage its interactions with the environment, in particular those interactions that consume resources, degrade the environment, and create human health risk. Part I of Green Profits provides a thorough and practical understanding of the elements of EMSs in general and ISO 14001 in particular, tools and techniques for implementing an EMS and achieving ISO 14001 certification, and help with getting the implementation process started.Pollution prevention involves replacing process technologies that generate pollution with those that do not or that do so much less. It focuses on improving production processes to minimize waste rather than treating effluents or emissions, which add to costs. Part II of Green Profits provides tools such as step-by-step guides to conducting a P2 audit and energy and material balances for identifying P2 opportunities in an enterprise; examples of P2 practices in specific industry sectors; and a set of tools for assessing potential P2 investments from a bottom-line point of view.With this New Handbook -- · Bring your facility into compliance · Improve your corporate image · Reduce your company's environmental liabilities · Identify and save millions of dollars from pollution prevention projects This New Handbook Includes -- · A step-by-step approach to implementing ISO 14001 · A step-by-step approach to implementing Pollution Prevention · Contains nearly 100 useful charts and tables used by the experts in establishing environmental action plans, gap analyses, establishing an Environmental Management System · Contains dozens of useful charts and calculation methods with examples for evaluating the costs and savings to your company in implementing Pollution Prevention · Dozens of industry-specific case studies that you can learn and profit from · Shows you in stepwise fashion how project financing principles and environmental cost accounting methods, when coupled with EMS can save your company moneyThis New Handbook is unique because unlike other volumes that separately cover Environmental Management Systems and Pollution Prevention, you have it all in one single volume, written by Experts that are Practitioners. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Drinking Water Contaminant Candidate List , 1998 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Water and Wastewater Treatment Plant Operations Frank R. Spellman, 2020-05-17 The Handbook of Water and Wastewater Treatment Plant Operations is the first thorough resource manual developed exclusively for water and wastewater plant operators. Now regarded as an industry standard, this fourth edition has been updated throughout, and explains the material in easy-to-understand language. It also provides real-world case studies and operating scenarios, as well as problem-solving practice sets for each scenario. Features: Updates the material to reflect the developments in the field Includes new math operations with solutions, as well as over 250 new sample questions Adds updated coverage of energy conservation measures with applicable case studies Enables users to properly operate water and wastewater plants and suggests troubleshooting procedures for returning a plant to optimum operation levels Prepares operators for licensure exams A complete compilation of water science, treatment information, process control procedures, problem-solving techniques, safety and health information, and administrative and technological trends, this text serves as a resource for professionals working in water and wastewater operations and operators preparing for wastewater licensure exams. It can also be used as a supplemental textbook for undergraduate and graduate students studying environmental science, water science, and environmental engineering. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Separation Process Technology Ronald W. Rousseau, 1987-05-13 Surveys the selection, design, and operation of most of the industrially important separation processes. Discusses the underlying principles on which the processes are based, and provides illustrative examples of the use of the processes in a modern context. Features thorough treatment of newer separation processes based on membranes, adsorption, chromatography, ion exchange, and chemical complexation. Includes a review of historically important separation processes such as distillation, absorption, extraction, leaching, and crystallization and considers these techniques in light of recent developments affecting them. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Solid Waste Management George Tchobanoglous, Frank Kreith, 2002-07-13 In a world where waste incinerators are not an option and landfills are at over capacity, cities are hard pressed to find a solution to the problem of what to do with their solid waste. Handbook of Solid Waste Management, 2/e offers a solution. This handbook offers an integrated approach to the planning, design, and management of economical and environmentally responsible solid waste disposal system. Let twenty industry and government experts provide you with the tools to design a solid waste management system capable of disposing of waste in a cost-efficient and environmentally responsible manner. Focusing on the six primary functions of an integrated system--source reduction, toxicity reduction, recycling and reuse, composting, waste- to-energy combustion, and landfilling--they explore each technology and examine its problems, costs, and legal and social ramifications. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Unit Processes in Drinking Water Treatment Willy J. Masschelein, 2020-08-27 This text offers information on the theory of major drinking water treatment processes and contains real-life practical examples. It aims to create guidelines for the design of unit processes that operate within an overall framework for water treatment plants. |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Handbook of Water and Wastewater Treatment Technology Paul N. Cheremisinoff, 2019-01-22 Offers information on the treatment of water and wastewater for municipal, sanitary and industrial applications, focusing on unit operations and processes that serve the broadest range of users. Wastewater treatement unit operations, including filtration, flotation, chemical coagulation, flocculation and sedimentation, as well as advanced technolog |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Flowmeters Alan T J Hayward, 2013-12-31 |
| wastewater and biosolids treatment technologies nicholas p cheremisinoff: Hydraulic Fracturing Operations Nicholas P. Cheremisinoff, Anton Davletshin, 2015-01-28 Hydraulic fracturing, commonly referred to as“fracking,” is a technique used by the oil and gasindustry to mine hydrocarbons trapped deep beneath theEarth’s surface. The principles underlying the technology arenot new. Fracking was first applied at the commercial level in theUnited States as early as 1947, and over the decades it has beenapplied in various countries including Canada, the UK, and Russia.The author worked with engineering teams as early as the mid-1970sin evaluating ways to improve oil recovery from this practice. By and large fracking was not an economically competitiveprocess and had limited applications until the early 2000s. Several factors altered the importance of this technology, amongthem being significant technological innovations in drillingpractices with impressive high tech tools for exploration, wellconstruction and integrity, and recovery along with discoveries ofmassive natural gas reserves in the United States and other partsof the world. These factors have catapulted the application of thetechnology to what is best described as the gold rush of the 21stcentury, with exploration and natural gas plays proceeding at apace that seemingly is unrivaled by any historical industrialendeavor. But this level of activity has invoked widespreadcriticism from concerned citizens and environmental groups inalmost every nation across the Globe. This outstanding new volume offers the industry a handbook ofenvironmental management practices that can mitigate risks to theenvironment and, through best practices and current technologies,to conform to the current standards and regulations that are inplace to provide the world with the energy it needs while avoidingenvironmental damage. For the new hire, veteran engineer, andstudent alike, this is a one-of-a-kind volume, a must-have foranyone working in hydraulic fracturing. |
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