Removal of Pollutants from Saline Water: Treatment Technologies provides a comprehensive understanding of technologies that are currently adopted in the treatment of pollutants present in saline water systems. It provides information on the treatment technologies for saline water systems, including seawater, brackish water, oil-produced water, and other industrial saline wastewaters. FEATURES Presents information exclusively for saline water pollutant removal Introduces current treatment technologies and addresses why and how the techniques differ between fresh and salt water Offers an inclusive overview of physicochemical, biological, membrane, and advanced oxidation treatment technologies Features various perspectives and case studies from relevant global experts Provides a comprehensive one-stop source for the treatment of pollutants in all saline water systems Aimed at students, academicians, researchers, and practicing engineers in the fields of chemical, civil, marine, and environmental engineering who wish to be acquainted with the most recent developments in the treatment of pollutants present in saline water systems. Prof. Dr. Shaik Feroz works at Prince Mohammad Bin Fahd University, Kingdom of Saudi Arabia. He has 30 years of experience in teaching, research, and industry. He has more than 190 publications to his credit in journals and conferences of international repute. He was awarded "Best Researcher" by Caledonian College of Engineering for the year 2014. Prof. Dr. Detlef W. Bahnemann is Head of the Research Unit, Photocatalysis and Nanotechnology at Leibniz University Hannover (Germany), Director of the Research Institute "Nanocomposite Materials for Photonic Applications" at Saint Petersburg State University (Russian Federation), and Distinguished Professor at Shaanxi University of Science and Technology in Xi'an (People's Republic of China). His research topics include photocatalysis, photoelectrochemistry, solar chemistry, and photochemistry focused on synthesis and physical-chemical properties of semiconductor and metal nanoparticles. His 500-plus publications have been cited more than 65,000 times (h-index: 100).

Explores planning for biogas plants as a pre-requisite to develop a functional plant balancing energy production and consumption Gives out detailed provision of the types of substances that are and can be used for biogas production covering animal wastes, municipal and industrial wastes Provides knowledge for aspiring biogas producers as well as decision makers, specifically in the context of Nigeria Covers use of digestrate for anaerobic digestion as a waste treatment method and on the input (feedstock) to the biogas plant Compares carbon dioxide emissions from biogas plants with fossil fuel plants

The book encompasses novel CFD techniques to compute offshore wind and tidal applications. Computational fluid dynamics (CFD) techniques are regarded as the main design tool to explore the new engineering challenges presented by offshore wind and tidal turbines for energy generation. The difficulty and costs of undertaking experimental tests in offshore environments have increased the interest in the field of CFD which is used to design appropriate turbines and blades, understand fluid flow physical phenomena associated with offshore environments, predict power production or characterise offshore environments, amongst other topics.

This book investigates energy access through the lens of everyday energy practices in the Gambian community of Kartong. Reframing Energy Access: Insights from The Gambia explores past, current and potential future modes of energy production and consumption to examine concepts such as energy leapfrogging and energy sufficiency. It argues that developments must be rooted in situated understanding of energy consumption to ensure sustainable and equitable access to modern energy services. Schiffer provides a uniquely long-term and holistic perspective into changing energy practices on the ground and the economic, political, environmental, technical and cultural factors that shape it. Translating insights of energy in The Gambian context into broader themes and recommendations, this book will be of great interest to policy makers, researchers and practitioners who work in the fields of energy access, energy policy, renewable energy transitions, as well as African and sustainable development in general.

This book explores how cultural considerations can improve policymaking to achieve mainstream solar energy in small, tropical islands. Focusing on Trinidad, Barbados and O'ahu, Kiron C. Neale looks at how culture can affect and be affected by the policies that support the household adoption of two key energy technologies: solar water heating and photovoltaics. Drawing on interviews with residents and energy officials, and an examination of the institutional, socio-economic and physical factors that affect energy systems such as governance structures and energy resource availability, the author explores themes including the impact of insularity on energy transitions and behavioural and cultural change. Overall, this book rebrands policies as instruments of cultural change and puts forward recommendations applicable to all small, tropical islands. Following the islands' transition to renewable energy, this book will be of great interest to scholars of energy policy, energy transitions, climate change, cultural studies and small states development, as well as industry professionals working on energy policy implementation.

Used lubricating oil is a valuable resource. However, it must be re-refined mainly due to the accumulation of physical and chemical contaminants in the oil during service. Refining Used Lubricating Oils describes the properties of used lubricating oils and presents ways these materials can be re-refined and converted into useful lubricants as well as other products. It provides an up-to-date review of most of the processes for used lubricating oil refining that have been proposed or implemented in different parts of the world, and addresses feasibility and criteria for selecting a particular process. The book begins with an overview of lubricating oil manufacturing, both petroleum-based and synthetic-based. It reviews the types and properties of lubricating oils and discusses the characteristics and potential of used lubricating oils. The authors describe the basic steps of used oil treatment including dehydration, distillation or solvent extraction, and finishing. They explore the combustion of used oil for use as fuel, covering chemistry and equipment, fuel oil properties, and combustion emissions. The book considers alternative processing options such as refinery processing and re-refining. It also reviews the major refining processes that have been suggested over the years for used oil. These include acid/clay, simple distillation, combinations of distillation and hydrogenation, solvent extraction, filtration, and coking processes. The book addresses economic, life cycle assessment, and other criteria for evaluating the attractiveness of an oil recycling project, examining various costs and presenting an economic evaluation method using an Excel spreadsheet that can be downloaded from the publisher's website. The book concludes with a chapter offering insights on how to choose the most suitable process technology.

This book compiles research findings directly related to sustainable and economic waste management and resource recovery. Mining wastes and municipal, urban, domestic, industrial and agricultural wastes and effluents-which contain persistent organic contaminants, nanoparticle organic chemicals, nutrients, energy, organic materials, heavy metal, rare earth elements, iron, steel, bauxite, coal and other valuable materials-are significantly responsible for environmental contamination. These low-tenor raw materials, if recycled, can significantly address the demand-supply chain mismatch and process sustainability as a whole while simultaneously decreasing their impacts on human life and biodiversity. This book summarises the large volume of current research in the realm of waste management and resource recovery, which has led to innovation and commercialisation of sustainable and economic waste management for improved environmental safety and improved economics. Key Features: Reviews the key research findings related to sustainable and economic resource recovery and waste management techniques Discusses minimizing waste materials and environmental contaminants with a focus on recovering valuable resources from wastes Examines the potential uses of mining waste in the re-extraction of metals, provision of fuel for power plants, and as a supply of other valuable materials for utilisation/processing Presents research on recycling of municipal, urban, domestic, industrial and agricultural wastes and wastewater in the production and recovery of energy, biogas, fertilizers, organic materials and nutrients Outlines topical research interests resulting in patents and inventions for sustainable and economic waste management techniques and environmental safety

This book demonstrates the need to coordinate private and corporate actors with national and global sustainable climate policies, with conventions in the spheres of green energy laws, as well as from the spheres of commercial, trade, and other private law. While many states have joined together in the Paris Agreements in support of green energy policies, it remains a stark reality that most of the efforts to reduce greenhouse emissions remain with private actors who operate the various industries, vehicles, and vessels that emit the gases in target. The risks of anthropogenic climate change cannot be solved by environmental law alone and will need complementary support from commercial, corporate, and private law. However, aspects of commercial law, securities law, and trade law can be shown to frustrate certain aspects of green energy policies, resulting in damaging "green paradoxes". It raises issues associated with corporate social responsibility and green paradoxes, with international trade laws, and with liability risks for misrepresenting the state of feasible green energy technologies. The book will be of interest to students and scholars in the fields of energy law, environmental law, and corporate law.

The energy industry is a key source of growth stimulation for developing states. Understandably, developing states are eager to enter into petroleum investment contracts with international investors, with the expectation that this will benefit their countries. The domestic law of some developing states provides a welcoming investment environment in the form of guarantees and stability, while other states provide these opportunities by agreeing to investment contracts or treaties drafted by international organisations established to facilitate such agreements. This book identifies the political risks, particularly of indirect expropriation, that arise from the unilateral actions of host governments during the lifespan of energy investment projects. Focusing on stabilisation clauses as a political risk management tool, this research-based study draws on comparative empirical evidence from Turkey and Azerbaijan to determine what influences host states to consent to the insertion of stabilisation clauses in long-term host government agreements. Proposing a framework for the role to be played by both internal forces and external forces, it examines political regimes and state guarantees to foreign investors in Azerbaijan and Turkey from a comparative perspective, assessing how effective internal factors in Azerbaijan and Turkey are in facilitating contractual stability in their energy investment projects. Providing a comprehensive analysis of stabilisation clauses and the internal and external factors that compel host states to commit to them, this book will appeal to practitioners, students and scholars in international investment law and energy law.

Designing an Innovative Pedagogy for Sustainable Development in Higher Education This book develops a "green pedagogy" and an innovation mindset in higher education by using approaches based on innovative design thinking, arts-based practices, digital transformation, and entrepreneurship for sustainable development. New pedagogical methods and educational solutions are developed throughout this book to offer pedagogical support to both students and university/college-level instructors. This book leads students as well as their instructors, through an artful and experimental way of thinking and doing, to take the ownership of the co-creation process. This is the basis for increasing social responsibility, motivation and commitment, and fostering creativity and innovation. An educational toolkit, including human-centric design methods, digital tools, creative and arts-based practices, innovation-related skills, and nascent and social entrepreneurship competencies, is provided for higher education instructors. This method kit will help instructors support students in the process of creating new knowledge for addressing real-world problems and enhance their societal involvement, foster entrepreneurial spirit, and reach opportunities for a sustainable future. Features Discusses arts-based education and entrepreneurship-based skills. Presents digital transformation and innovation-related skills for sustainable development. Proposes an experimental culture of thinking and doing. Provides agile and collaborative development methodology. Leads students to be much more creative and innovative. Offers a method kit for instructors to respond to 21st-century requirements in the field of higher education.

Process Integration Approaches to Planning Carbon Management Networks provides a comprehensive treatment of carbon emissions pinch analysis (CEPA), covering the fundamentals as well as more advanced variants based on mathematical programming. A significant portion of the book is dedicated to case studies that provide a range of examples to demonstrate how CEPA can be applied to practical energy planning problems. Selected chapters also include electronic supplements (e.g., spreadsheet templates and software code) to aid the reader in applying these methods to new sets of data. This book is ideal for academic researchers and graduate students interested in carbon-constrained energy planning models and applications. This book Provides essential information on CEPA and mathematical programming Gives illustrative examples and case studies drawn from contemporary climatic issues Covers state-of-the-art methodological developments Discusses about applications in various countries Offers additional support through supplementary spreadsheet templates and software code Professor Dominic Foo is a professor of process design and integration at the University of Nottingham Malaysia. He is a fellow of the Institution of Chemical Engineers, a fellow of the Academy of Science Malaysia, a chartered engineer with the UK Engineering Council, and a professional engineer with the Board of Engineers Malaysia. He works on process integration for resource conservation and CO2 reduction, with more than 400 published works. Prof. Foo is the co-editor-in-chief for Process Integration and Optimization for Sustainability, subject editor for Process Safety & Environmental Protection, and an editorial board member for several other renowned journals. Raymond R. Tan is a professor of chemical engineering and university fellow at De La Salle University, Philippines. He is also a member of the National Academy of Science and Technology of the Philippines. His main areas of research are process systems engineering and process integration, where he has over 300 published works. Prof. Tan received his BS and MS degrees in chemical engineering and PhD in mechanical engineering from De La Salle University. He is also a co-editor-in-chief of Process Integration and Optimization for Sustainability, subject editor of Sustainable Production and Consumption, and an editorial board member of Clean Technologies and Environmental Policy.

Green Chemistry and Biodiversity: Principles, Techniques, and Correlations reports on new approaches to designing chemicals and chemical transformations that are beneficial for human health and the environment, a continuing emerging important field of study. This volume provides a collection of innovative research on the development of alternative sustainable technologies, taking a broad view of the subject and integrating a wide variety of approaches. With a focus on the interdisciplinary applications of green chemistry and biodiversity, this volume will be a rich resource for scientists and researchers in many subfields of chemistry and chemical engineering.

There are many ways to harness the renewable and emissions-free energy available from the Earth's oceans. The technologies include wave energy, tidal and current energy, and energy from thermal and salinity gradients. In addition, offshore wind energy and marine (floating) solar arrays offer a possibility to exploit vast resources that are far larger than those available onshore. The potential capacities range from many hundreds of gigawatts to terawatts of generation. These technologies could contribute a significant part of the global electricity demand; they are particularly suitable for providing sustainable power to marine regions and island communities and nations. This book brings together contributions from international experts with academic and industry backgrounds to provide a systematic overview of ocean energy technologies, their readiness and modelling, as well as installation and grid connection technologies.

This book examines the discursive formation of nuclear power in Japan to provide insights into the ways this technology has been both promoted and resisted, constituting and being constituted by Japan's sociocultural landscape. Each chapter pays close attention to a particular discursive site, including newspaper editorials, public relations campaigns, local site fights, urban antinuclear activism, and post-Fukushima pronuclear and antinuclear articulations. The book also raises the question of democracy and sustainability through the examination of nuclear power discourses. It demonstrates the power of discourse in shaping nuclear power by creating knowledge, influencing decisions, relationships, identity, and community. Readers will gain a range of insights from the book: prominent articulations on nuclear power discourse, state and corporate strategies for enticing consent for controversial facilities and technologies, the power of the media in framing public knowledge, the role of social movements and activisms in civic society, the power of community, and nuclear power as a problematic in representative democracy and sustainability. This book will appeal to students and scholars interested in social discourse, social movements, Japanese society, cultural studies, environmental communication, media analysis, energy and sustainability, and democracy, among others.

The impact of the proposed book is to provide a significant area of concern to develop a foundation for the implementation process renewable energy system with intelligent techniques. The researchers working on a renewable energy system can correlate their work with intelligent and machine learning approaches. To make aware of the international standards for intelligent renewable energy systems design, reliability and maintenance. To give better incites of the solar cell, biofuels, wind and other renewable energy system design and characterization, including the equipment for smart energy systems.

Provides exhaustive information on the use of algae for the simultaneous treatment and resource recovery of wastewater. Discuses algae, microalgae, and cyanobacteria applications in-detail. Presents critical insight into limitations of the prevalent technologies. Reviews methodology of advanced technologies. Includes illustrations and interesting trivia boxes throughout the book.

This book is to provide in-depth information on fundamentals of different renewable energy resources. The primary emphasis is on fundamentals of thermodynamics and heat transfer aspects of renewable energy gadgets and their actual applications. Various renewable energy systems are described and their fundamental analyses are described. Note: T&F does not sell or distribute the hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka. This title is co-published with NIPA.

The content of book includes all major aspects of biomass production and efficient utilization for energy generation. Most of the information presented in this book reflects a basis to acquire the understanding of the proper utilization of biomass for heat and power generation. In this book, design criteria, present state of art of technology and future perspective of clean energy are illustrated through graphs, figures, tables, flowcharts. equatiosn etc. to make the subject more clear and useful. Note: T&F does not sell or distribute the hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka. This title is co-published with NIPA.

Completely revised and updated with a new chapter on future possibilities Comprehensive coverage of available renewable technologies starting from basic scientific and engineering principles Compares and contrasts renewable technologies against each other and existing non-renewables like fossil fuels & nuclear power Addresses new developments in topics such as climate change mitigation, solar photovoltaic lighting, electricity grids, small-scale batteries, electric vehicles and bio-fuels

This book provides the short history, current state, main problems and historical perspective for the development of electrical power engineering. The focus of the textbook is on the two most important issues related to meeting of the growing needs of humanity in electricity: "Hunger for energy" and "Ecological infarct". In the book are discussed the methods of their solution: optimization of energy balance, use of renewable energy resources, new methods of electricity production, increase of the efficiency of production, accumulation, transmission, distribution and consumption electricity. The third issue - social and geopolitical threats due to the increasing need for energy - in the textbook is not considered inasmuch it details in non-stop regime discussed in the mass media. Choosing the structure and content of the textbook is based on the ten years of the author experience of giving lectures to Tomsk Polytechnic University students who study according to the program Electric Power Engineering. This textbook is addresed to students, masters and post-graduates. It can be interesting for everyone who is thinking about the future of our civilization, in general, and meeting of human needs in electric power, in particular.

The demand for renewable energies from biomass is growing steadily as policies are enacted to encourage such development and as industry increasingly sees an opportunity to develop bio-energy enterprises. Recent policy changes in the EU, USA and other countries are spurring interest in the cultivation of energy crops such as switchgrass. Switchgrass has gained and early lead in the race to find a biomass feedstock for energy production (and for the almost requisite need for bio-based products from such feedstocks). "Switchgrass: A Valuable Biomass Crop for Energy" provides a comprehensive guide to the biology, physiology, breeding, culture and conversion of switchgrass as well as highlighting various environmental, economic and social benefits.

Considering this potential energy source, "Switchgrass: A Valuable Biomass Crop for Energy" brings together chapters from a range of experts in the field, including a foreword from Kenneth P. Vogel, to collect and present the environmental benefits and characteristics of this a crop with the potential to mitigate the risks of global warming by replacing fossil fuels.

Including clear figures and tables to support discussions, "Switchgrass: A Valuable Biomass Crop for Energy" provides a solid reference for anyone with interest or investment in the development of bioenergy; researchers, policy makers and stakeholders will find this a key resource.

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This textbook provides an accessible introduction to various energy transformation technologies and their influences on the environment. Here the energy transformation is understood as any physical process induced by humans, in which energy is intentionally transformed from one form to another. This book provides an accessible introduction to the subject: covering the theory, principles of design, operation, and efficiency of the systems in addition to discerning concepts such as energy, entropy, exergy, efficiency, and sustainability. It is not assumed that readers have any previous exposure to such concepts as laws of thermodynamics, entropy, exergy, fluid mechanics or heat transfer, and is therefore an ideal textbook for advanced undergraduate students. Key features: Represents a complete source of information on sustainable energy transformation systems and their externalities. Includes all existing and major emerging technologies in the field. Chapters include numerous examples and problems for further learning opportunities.

This textbook provides an accessible introduction to various energy transformation technologies and their influences on the environment. Here the energy transformation is understood as any physical process induced by humans, in which energy is intentionally transformed from one form to another. This book provides an accessible introduction to the subject: covering the theory, principles of design, operation, and efficiency of the systems in addition to discerning concepts such as energy, entropy, exergy, efficiency, and sustainability. It is not assumed that readers have any previous exposure to such concepts as laws of thermodynamics, entropy, exergy, fluid mechanics or heat transfer, and is therefore an ideal textbook for advanced undergraduate students. Key features: Represents a complete source of information on sustainable energy transformation systems and their externalities. Includes all existing and major emerging technologies in the field. Chapters include numerous examples and problems for further learning opportunities.

Based on state-of-the-art science and technologies, this book disseminates the latest advancements concerning the relationship between renewable energy and climate change and presents the best practices to further utilize renewable energy for mitigation. It examines issues of climate change from different renewable energy fronts by the respective experts from around the world. While high-level and in-depth technological advancements are judiciously presented, it also discusses different types of renewable energy and the associated technologies in consideration of the various perspectives of economy, availability, and societal implications in different regions. Features: Discusses the concept of leapfrogging renewable energy technologies in developing countries for the purpose of minimizing human-induced climate change impacts as rapidly as possible Includes various options from high technology to sustainable agriculture Presents and compares the latest novel and emerging potential technologies Outlines how to advance renewable energy by improving energy storage and optimizing financial incentives and management Renewable Energy for Mitigating Climate Change enlightens readers from a renewable energy perspective on how to best tackle the challenges of climate change. This is a must-read for senior undergraduate and graduate students in environmental studies, decision- and policymakers, educators, and every environmental steward. The interests of all stakeholders, especially future generations, form the thread connecting all the chapters together into a powerful tool to mitigate global climate change.

Proposes an integrative approach combining Human Factors Expertise with Automotive Engineering Develops an in-depth case study of design a fuel-efficient driving intervention Offers an examination of an innovative study of feed-forward eco-driving advice based on current vehicle and road environment status Presents lessons and insights gained from the current work and can be applied across domains Utilizes a documented scientific and research lead approach to designing novel speed advisory and fuel use minimisation systems suitable for combustion vehicles, hybrids, and electric vehicles