"Professor Oweiss' book recounts in clear prose the story of an active and productive life lived largely in two different cultures- Egyptian (and Middle Eastern) and American. The reader will meet many interesting personages- well known and not well known-across seven decades of important changes in the world. Ibrahim Oweiss has lived quite a life." -Carol Lancaster, Dean of the School of Foreign Service and Professor of Politics, Georgetown University. Ibrahim M. Oweiss is an educator and an international economic advisor. Born in Egypt, he earned his Masters and Ph.D. degrees in the U.S. As a Professor of Economics, he taught at Georgetown University for forty two years, and was a visiting professor at Harvard University and Johns Hopkins University. While on leave from academia, he was appointed First Under-Secretary for Economic Affairs in the Egyptian Cabinet. He also served as the Chief of the Egyptian Economic Mission to the U.S. with the rank of Ambassador. He authored over sixty scholarly publications, among them: Petrodollar Surpluses, Arab Civilization, The Political Economy of Contemporary Egypt, and The Arab Gulf Economies. He coined the terms "Petrodollar" and "Hostage Capital" in 1974. The "Oweiss Demand Curve" was first presented at Oxford University in 1982. He holds Egypt's Order of Merit, First Class, among other decorations.

The book addresses the vital and interwoven areas of energy, environment, and the economy within the field of sustainability research. Fundamental technical details, empirical data, and case studies taking into account local and international perspectives are included. Issues such as energy security, depleting fossil fuel reserves, global warming and climate change, as well as novel energy technologies are covered. The dynamic global response will be discussed from the perspective of policy, technology, and economics. Vital details in the form of text boxes, illustrations, graphs, tables and appendices are included. The book will serve as reference book for upper-level undergraduate and graduate students, researchers, academics, policy makers, NGOs and developmental sector professionals within the field.

The most commonly used biological wastewater treatment technologies still have serious technical-economical and sustainability-related limitations, due to their high energy requirements, poor effluent quality, and lack of energy and resource recovery processes. In this thesis, novel electrochemical membrane bioreactors (EMBRs), which take advantage of membrane separation and bioelectrochemical techniques, are developed for wastewater treatment and the simultaneous recovery of energy and resources. Above all, this innovative system holds great promise for the efficient wastewater treatment and energy recovery. It can potentially recover net energy from wastewater while at the same time harvesting high-quality effluent. The book also provides a proof-of-concept study showing that electrochemical control might offer a promising in-situ means of suppressing membrane fouling. Lastly, by integrating electrodialysis into EMBRs, phosphate separation and recovery are achieved. Hence, these new EMBR techniques provide viable alternatives for sustainable wastewater treatment and resource recovery.

The roles and applications of various modeling approaches, aimed at improving the usefulness of energy policy models in public decision making, are covered by this book. The development, validation, and applications of system dynamics and agent-based models in service of energy policy design and assessment in the 21st century is a key focus. A number of modeling approaches and models for energy policy, with a particular focus on low-carbon economic development of regions and states are covered. Chapters on system dynamics methodology, model-based theory, fuzzy system dynamics frame-work, and optimization modeling approach are presented, along with several chapters on future research opportunities for the energy policy modeling community. The use of model-based analysis and scenarios in energy policy design and assessment has seen phenomenal growth during the past several decades. In recent years, renewed concerns about climate change and energy security have posed unique modeling challenges. By utilizing the validation techniques and procedures which are effectively demonstrated in these contributions, researchers and practitioners in energy systems domain can increase the appeal and acceptance of their policy models.

This book analyzes new electricity pricing models that consider uncertainties in the power market due to the changing behavior of market players and the implementation of renewable distributed generation and responsive loads. In-depth chapters examine the different types of market players including the generation, transmission, and distribution companies, virtual power plants, demand response aggregators, and energy hubs and microgrids. Expert authors propose optimal operational models for short-term performance and scheduling and present readers with solutions for pricing challenges in uncertain environments. This book is useful for engineers, researchers and students involved in integrating demand response programs into smart grids and for electricity market operation and planning. Proposes optimal operation models; Discusses the various players in today's electricity markets; Describes the effects of demand response programs in smart grids.

This textbook provides an introduction to energy analysis for those students who want to specialise in this challenging field. In comparison to other textbooks, this book provides a balanced treatment of complete energy systems, covering the demand side, the supply side, and the energy markets that connect these. The emphasis is very much on presenting a range of tools and methodologies that will help students find their way in analysing real world problems in energy systems. This new edition has been updated throughout and contains additional content on energy transitions and improvements in the treatment of several energy systems analysis approaches. Featuring learning objectives, further readings and practical exercises in each chapter, Introduction to Energy Analysis will be essential reading for upper-level undergraduate and postgraduate students with a background in the natural sciences and engineering. This book may also be useful for professionals dealing with energy issues, as a first introduction into the field.

This edited volume seeks to identify the sustainability issues currently affecting the energy business and finance. For this purpose, a broad range of perspectives on sustainability issues in the energy business and finance are taken into consideration in the context of renewable business projects. In turn, several novel strategies from the energy business and finance are illustrated with regard to sustainable organizational factors, technological infrastructure, financial facilities, economic development, and investment potential. Comparing and contrasting different sustainability perspectives can help to develop the most appropriate and successful business strategies for the sustainable energy business and finance. This book presents multidimensional analyses of sustainability issues with regard to renewable energy projects and identifies the most promising strategies, as well as efficient market conditions for the energy business.

There is by now no question among informed people that the Earth is undergoing severe climate change – soon to become catastrophic, if humans don’t take drastic measures to stop it. Heroically into the fray steps the biofuel industry, announcing to millions of anxious consumers that this eco-crisis can be averted if only they turn away from fossil fuels, to the saving power of synthetic bioproducts. But, although eliminating fossil fuels is essential, the manufacture of biofuels has far more to do with sating profit-hungry corporations than with saving the Earth. Combining meticulous scientific narrative with devastating economic analysis, The Biofuels Deception argues that the seemingly innovative, hopeful campaign for “green energy” is actually driven by bio-technology industries and global grain-trading corporations. These corporate players are motivated by a late-capitalist need to cope with a crisis of accumulation; they have no real interest in mitigating climate-change, alleviating poverty, or even creating “clean” energy. In fact, the manufacture of biochemical, bioplastics, and biomaterials, writes Okbazghi Yohannes, portends horrific contradictions and disastrous consequences for nature and society. Actually confronting climate change and the rampant inequality it engenders, Yohannes says, requires two steps. The first is to understand the driving socioeconomic forces behind the biofuels industry. The second is to unravel the tapestry of deceit itself. This book is a necessity for any scholar or environmental activist interested in seeing beyond corporate chimeras to actual environmental solutions.

The Offshore Pipeline Construction Industry: Activity Modeling and Cost Estimation in the United States Gulf of Mexico presents the latest technical concepts and economic calculations, helping engineers make better business decisions. The book covers flow assurance, development strategies on pipeline requirements and the construction service side with a global perspective. In addition, it focuses on one of the most underdeveloped, promising assets - the Gulf of Mexico. Pipeline construction and decommissioning estimation methods are examined with reliable data presented. A final section covers trends for oil, gas, bulk oil, bulk gas, service and umbilical pipelines for installation and decommissioning using correlation models. This book delivers a much-needed tool for the pipeline engineer to better understand the economical choices and alternatives to designing, constructing, and operating today's offshore pipelines.

The Role of Public Participation in Energy Transitions provides a conceptual and empirical approach to stakeholder and citizen involvement in the ongoing energy transition conversation, focusing on projects surrounding energy conversion and efficiency, reducing energy demand, and using new forms of renewable energy sources. Sections review and contrast different approaches to citizen involvement, discuss the challenges of inclusive participation in complex energy policymaking, and provide conceptual foundations for the empirical case studies that constitute the second part of the book. The book is a valuable resource for academics in the field of energy planning and policymaking, as well as practitioners in energy governance, energy and urban planners and participation specialists.

This book provides the first comprehensive analysis of unbundling and, in particular, ownership unbundling policies from the perspective of international economic law. It does so by focusing on the prominent example of the EU's energy sector and its Third Energy Package. Unbundling has become an increasingly crucial competition instrument in network-bound industries worldwide. It is designed to ensure access to bottleneck infrastructures on fair and non-discriminatory terms and thus to suppress the anti-competitive potential deriving from vertical integration in natural monopoly situations. While promoting important public policy objectives, unbundling policies have also raised a number of legal issues. This book analyzes how international economic law limits the adoption and maintenance of unbundling and related measures and also outlines how international trade law can play a 'positive' role in this field. As a result, it provides a valuable reference for academics, practitioners and policy-makers.

As China has shifted from a planned to a market-oriented economy, it has adjusted its energy policies accordingly. As a result, the Chinese energy industry has now gone through more than seventy years of transformation. Yet to date no single work has sought to assess the key factors driving these changes and their effects on China's energy security, even though such questions have implications for assessments of the world's energy security. Energy Security in Times of Economic Transition addresses this gap. Juxtaposing a domestic perspective with a wider, pan-energy-industry view, Yao Lixia explores trends in the evolution of China's energy policy since its inception in 1949 and discusses the relations between policy changes and macroeconomic reforms. Then, by employing a new, ground-breaking quantitative framework for evaluating energy security, Yao crucially shows that macroeconomic reform did not improve China's energy security over the first three decades of the reform period but in fact restricted China from developing more effective energy policies. This insight ultimately suggests lines of inquiry that can be extended to research in other countries, especially those in the midst of economic transition. For its detailed history of China's energy policy and its novel, widely applicable methodology for evaluating energy security, this book is a must-read for researchers and postgraduate students in economics, security studies, political economy, and international political economy.

This book includes the proceedings of the Mitigating Climate Change 2021 Symposium and Industry Summit (MCC2021), which brings together research from experts in academia, industry, and policy arenas to uncover the challenges, sharpen existing solutions, and formulate cutting-edge means to mitigate climate change. It highlights the need to create sustainable measures at all fronts including adaptation, policy, finance, renewable energy, solar, wind, thermoelectric, green transportation, and sustainable healthcare. This symposium will disseminate the state-of-the-art breakthroughs and promote collaborations to maximize opportunities for innovative solutions.

The Regulation and Policy of Latin American Energy Transitions examines the ongoing revolution within the energy landscape of Latin America. This book includes real-world examples from across the continent to demonstrate the current landscape of energy policy in Latin America. It focuses on distributed energy resources, including distributed generation, energy efficiency and microgrids, but also addresses the role of less common energy sources, such as geothermal and biogas, as well as discusses the changing role of energy actors, where consumers become prosumers or prosumagers, and utilities become service providers. The legal frameworks that are still hampering the transformation of the energy landscape are explored, together with an analysis of the economic, planning-related and social aspects of energy transitions, which can help address the issue of how inequalities are affecting and being affected by energy transitions. The book is suitable for policy makers, lawyers, economists and social science professionals working with energy policy, as well as researchers and industry professionals in the field. It is an ideal source for anyone involved in energy policy and regulation across Latin America.

Current wastewater treatment technologies are not sustainable simply due to their high operational costs and process inefficiency. Integrated Microbial Fuel Cells for Wastewater Treatment is intended for professionals who are searching for an innovative method to improve the efficiencies of wastewater treatment processes by exploiting the potential of Microbial Fuel Cells (MFCs) technology. The book is broadly divided into four sections. It begins with an overview of the "state of the art" bioelectrochemical systems (BESs) as well as the fundamentals of MFC technology and its potential to enhance wastewater treatment efficiencies and reduce electricity generation cost. In section two, discusses the integration, installation, and optimization of MFC into conventional wastewater treatment processes such as activated sludge process, lagoons, constructed wetlands, and membrane bioreactors. Section three outlines integrations of MFCs into other wastewater processes. The final section provides explorative studies of MFC integrated systems for large scale wastewater treatment and the challenges which are inherent in the upscaling process.

Transport and Energy Research: A Behavioral Perspective deals with the transport issues associated with energy from a behavioral perspective in an interdisciplinary and systematic way. Existing transport and energy research has focused on technologies and energy efficiency; however, more efficient technologies do not necessarily lead to energy reduction. Unfortunately, very limited behavioral research can be found in the literature. This book covers major transport modes in major countries. It emphasizes the importance of researching the behaviors of not only transport and energy service users, but also transport and energy service providers, policy makers, organizations, company managers, and other stakeholders who are involved in and/or affected by transport and energy policies. It not only overviews the history of relevant research and presents new developments but also extensively discusses the future research issues. Various findings are summarized for reducing energy consumption from a behavioral perspective. This book provides readers with behavioral insights into more effective policymaking. Behavioral interventions are recommended as a key policy instrument for reducing energy consumption in a sustainable way. It provides policy makers with comprehensive insights into making more effective policies over the whole process of policymaking. The book can serve as a handbook for researchers and a textbook for graduate students in the fields of transport, energy, environment, planning, public policy, behavioral studies, and so on.

Advanced Biofuels: Applications, Technologies, and Environmental Sustainability presents recent developments and applications of biofuels in the field of internal combustion engines, with a primary focus on the recent approaches of biodiesel applications, low emission alternative fuels, and environmental sustainability. Editors Dr. Azad and Dr. Rasul, along with their team of expert contributors, combine a collection of extensive experimental investigations on engine performance and emissions and combustion phenomena using different types of oxygenated fuel with in-depth research on fuel applications, an analysis of available technologies and resources, energy efficiency improvement methods, and applications of oxygenated fuel for the sustainable environment. Academics, researchers, engineers and technologists will develop a greater understanding of the relevant concepts and solutions to the global issues related to achieving alternative energy application for future energy security, as well as environmental sustainability in medium and large-scale industries.

This book aims to incorporate an emerging successful business model, i.e., sharing economy, into energy markets, thus digging out the potential merits and applications in multi-energy sectors. With the core idea "access over ownership", sharing economy enables the collaborative consumption of idle resources through advanced information and communications technology. One critical challenge is to identify different market participants' occupation while accordingly designing pricing mechanisms. This book begins with an overview about the recent development of sharing economy in energy fields, and summarizes two energy market-related issues that sharing economy can hopefully address. One is how to quantify a marginal generator's contribution and thereby elicit truthful bidding under information asymmetry condition. The other is how to distinguish renewable and distributed energy resources' contribution and thus incentivize efficient aggregation considering increasing scale and uncertainty. Then sharing economy mechanisms are proposed and designed from a game theory perspective. On this basis, the following chapters thoroughly investigate the specific problems in spot markets, multi-area markets, renewable energy aggregation and energy systems integration. Additionally, the benefits brought by sharing economy are evaluated in terms of regional market bidding and transmission expansion deferral. Finally, the information and communications technologies related to sharing economy are modeled and analyzed. Hopefully, this book can greatly benefit the readers who are interested in energy economics and engineering.

This book covers game-theoretic approaches to analyzing policies for environmental regulation in the power sector. The scope includes operational and investment decisions in imperfectly competitive electricity markets as well as transmission planning and policy design. Given this context, this book synthesizes equilibrium and bi-level modeling to address challenging research questions such as: * How are power-plant operations affected by carbon policy, such as cap-and-trade (C&T) systems? * How does market power in electricity generation affect market outcomes and CO2 emissions? * How does a strategic firm with first-mover advantage manipulate both electricity and C&T permit prices? * How does a strategic firm with first-mover advantage invest in new generation capacity under a C&T system? * How does sustainable transmission planning adapt to an imperfectly competitive power sector? * How should a renewable portfolio standard (RPS) target be revised in an imperfectly competitive power sector? This book includes plenty of illustrative examples to facilitate the concepts' comprehension. It is intended to make equilibrium and bi-level models adapted for policy assessment accessible to graduate students, academic researchers, industry practitioners, and policy analysts.

Formulas and Calculations for Petroleum Engineering unlocks the capability for any petroleum engineering individual, experienced or not, to solve problems and locate quick answers, eliminating non-productive time spent searching for that right calculation. Enhanced with lab data experiments, practice examples, and a complimentary online software toolbox, the book presents the most convenient and practical reference for all oil and gas phases of a given project. Covering the full spectrum, this reference gives single-point reference to all critical modules, including drilling, production, reservoir engineering, well testing, well logging, enhanced oil recovery, well completion, fracturing, fluid flow, and even petroleum economics.

The US Gulf of Mexico is one of the largest and most prolific offshore hydrocarbon basins in the world with thousands of structures installed in the region and tens of thousands of wells drilled. Over the past decade, a significant number of structures in shallow water have been decommissioned, as operators can no longer "kick the decommissioning can" down the road. This has opened up new markets and additional regulatory oversight with far-reaching implications. This book describes future decommissioning trends and issues and provides guidance for operator budgeting, regulatory oversight, and service sector companies interested in participating in the field. Decommissioning Forecasting and Operating Cost Estimation is the first of its kind textbook to develop models to forecast platform decommissioning in the Gulf of Mexico and to better understand the dynamics of offshore production cost. The book bridges the gap between modeling and technical knowledge to provide insight into the sector. Topics are presented in five parts covering fundamentals, structure inventories and well trends, decommissioning modeling, critical infrastructure issues, and operating cost estimation. Factor models and activity-based cost models in operating cost estimation conclude the discussion. Decommissioning Forecasting and Operating Cost Estimation helps oil and gas professionals navigate through this complex and challenging field providing an invaluable resource for academics, researchers, and professionals. The book will also serve government regulators, energy and environmental engineers, offshore managers, financial analyst, and others interested in this fascinating and dynamic industry.

Energy Resources: Examining the Facts provides an authoritative, comprehensive overview of economic, political, and environmental drivers of America's energy picture, from trends in the production and consumption of fossil fuels and renewables to the state of the national energy grid. Energy Resources: Examining the Facts is part of a series that uses evidence-based documentation to examine the veracity of claims and beliefs about high-profile issues in American culture and politics. Each book in the Contemporary Debates series is intended to puncture rather than perpetuate myths that diminish our understanding of important policies and positions; to provide needed context for misleading statements and claims; and to confirm the factual accuracy of other assertions. This installment in the series provides a comprehensive overview of all energy resources used in the United States, including fossil fuels (oil, gas, coal), nuclear power, hydropower, other major renewables (solar and wind), and even smaller energy sources, such as wood products (biomass), ethanol, plant-based fluids/gases, and geothermal, that have meaningful potential for future growth. The framework of laws and regulations in which energy resources are developed, produced, and overseen is described, as are the ways in which economic development powered by different energy resources is impacting people and ecosystems in the United States and around the world. Extensively covers both energy resources and the electricity grid Illuminates the economic, environmental, legal, and regulatory foundations of energy policymaking since World War II Presents information in an easy-to-navigate Q&A format Uses quantifiable data from respected sources as the foundation for examining every issue Provides readers with leads to conduct further research in Further Reading sections for each entry Examines claims made by individuals and groups of all political backgrounds and ideologies

This book focuses on water resources and the economic, financial, social and environmental impacts (ICSDWE) of global warming and climate change. It discusses the links between these aspects and presents cutting-edge research, technology, and practice in these fields. The book is a valuable resource for students and researchers at government organizations, academic institutions, and NGOs.

This book provides energy efficiency quantitative analysis and optimal methods for discrete manufacturing systems from the perspective of global optimization. In order to analyze and optimize energy efficiency for discrete manufacturing systems, it uses real-time access to energy consumption information and models of the energy consumption, and constructs an energy efficiency quantitative index system. Based on the rough set and analytic hierarchy process, it also proposes a principal component quantitative analysis and a combined energy efficiency quantitative analysis. In turn, the book addresses the design and development of quantitative analysis systems. To save energy consumption on the basis of energy efficiency analysis, it presents several optimal control strategies, including one for single-machine equipment, an integrated approach based on RWA-MOPSO, and one for production energy efficiency based on a teaching and learning optimal algorithm. Given its scope, the book offers a valuable guide for students, teachers, engineers and researchers in the field of discrete manufacturing systems.