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Energy Growth Nexus in an era of Globalization reviews current research and practical policy considerations reflective of the ongoing transformation, covering four broad globalization themes from existing research literature: energy consumption, renewable energy consumption, financial markets and energy markets. Within these themes, contributors evaluate transformations in the energy-growth association relating to economic slowdowns, trade patterns, impacts of globalization, cross-border technological spillovers, changes in the risk profile of the countries, advent of Sustainable Development Goals (SDGs), changes in the pattern of cross-border labor force migration, and rising environmental awareness, among many other considerations. Policymakers, energy economists, and energy researchers in a range of connected disciplines will find this to be a great resource on the energy growth sector. - Addresses globalization relating to energy consumption, environmental quality, econometrics and energy markets - Demonstrates how to design effective energy and environmental policies in a rapidly globalizing world within a Sustainable Development Goals (SDGs) framework - Reviews open research questions relevant to energy-growth nexus so policymakers can bring forth socioeconomic stability
Access to new sources of energy and their efficient conversion to provide useful work have been key drivers of economic growth since the industrial revolution. Western countries now need to transform their energy systems and move away from the single-minded pursuit of economic growth in order to reduce our carbon emissions, and to allow the environmental space for other countries to develop in a more sustainable way. Achieving this requires understanding of the dynamics of economic and industrial change with appreciation of the dependence of economies on ecological systems. Energy and Economic Growth thus examines the links between three issues: history of energy sources, technologies and uses; ecological challenges associated with the current dominant economic growth paradigm; and the future low carbon energy transition to mitigate human-induced climate change. Providing a historical understanding of the relevant connections between physical, social and economic changes, the book enables the reader to better understand the connection between their own energy use and global economic and environmental systems, and to be able to ask the right questions of our political and business leaders. This is a valuable resource for students, scholars and policy makers with an interest in energy, climate change and economic thinking.
The PhD dissertation discusses large transformations of technologies have occurred in the Swedish economy during the last two centuries, resulting in higher income, better quality of products and changing composition of GDP. An agrarian society has given way to an industrial society and lately to a post-industrial phase. The energy supply systems have changed, from traditional energy carriers, such as firewood and muscle energy to modern carriers like coal, oil and electricity, with effects on CO2 emissions. Not only has the energy supply gone through fundamental changes, but also forest management, which affects the net emissions of CO2. The interrelations of growth, energy and CO2 are analyzed in this thesis, which uses standard calculations
Energy Global energy demand has more than doubled since 1970. The use of energy is strongly related to almost every conceivable aspect of development: wealth, health, nutrition, water, infrastructure, education and even life expectancy itself are strongly and significantly related to the consumption of energy per capita. Many development indicators are strongly related to per-capita energy consumption. Fossil fuel is the most conventional source of energy but also increases greenhouse gas emissions. The economic development of many countries has come at the cost of the environment. However, it should not be presumed that a reconciliation of the two is not possible. The nexus concept is the interconnection between the resource energy, water, food, land, and climate. Such interconnections enable us to address trade-offs and seek synergies among them. Energy, water, food, land, and climate are essential resources of our natural environment and support our quality of life. Competition between these resources is increasing globally and is exacerbated by climate change. Improving resilience and securing resource availability would require improving resource efficiency. Many policies and programs are announced nationally and internationally for replacing the conventional mode and also emphasizing on conservation of fossil fuels and reuse of exhausted energy, so a gap in implications and outcomes can be broadly traced by comparing the data. This book aims to highlight problems and solutions related to conventional energy utilization, formation, and multitudes of ecological impacts and tools for the conservation of fossil fuels. The book also discusses modern energy services as one of the sustainable development goals and how the pressure on resource energy disturbs the natural flows. The recent advances in alternative energy sources and their possible future growth are discussed and on how conventional energy leads to greenhouse gas formation, which reduces energy use efficiency. The different policies and models operating is also addressed, and the gaps that remained between them. Climate change poses a challenge for renewable energy, and thus it is essential to identify the factors that would reduce the possibility of relying on sustainable energy sources. This book will be of interest to researchers and stakeholders, students, industries, NGOs, and governmental agencies directly or indirectly associated with energy research.
It gives me great pleasure to review this important book. I recommend it highly to any physicist with an interest or curiosity about this economy thing within which we operate. . . There is no excuse not to get this invaluable volume onto your bookshelf. Simon Roberts, Institute of Physics Energy Group This book addresses a very important topic, namely economic growth analysis from the angle of energy and material flows. The treatment is well balanced in terms of research and interpretation of the broader literature. The book not only contains a variety of empirical indicators, statistical analyses and insights, but also offers an unusually complete and pluralistic view on theorizing about economic growth and technological change. This results in a number of refreshing perspectives on known ideas and literatures. The text is so attractively written that I found it very difficult to stop reading. All in all, this is a very original and important contribution to the everlasting debate on growth versus environment. Jeroen C.J.M. van den Bergh, University of Barcelona, Spain and Free University, Amsterdam, The Netherlands Would you want your great-grandchildren in 2100AD to have a 22nd-century industrial economy? If so, read this book to grasp how strongly wealth depends on energy and its efficient use. Start treating fossil energy not as continuing income, but as one-time energy capital to spend on efficiency and long-term sustainable energy production. Otherwise, your descendants will inherit a broken 20th-century economy that only worked with cheap fossil fuels. They will not be rich and they will wonder what their ancestors were thinking. John R. Mashey, PhD, former Chief Scientist, Silicon Graphics Current economic theory attributes most income growth to technical progress. However, since technical progress can neither be defined nor measured, no one really knows what policies will encourage income growth. Ayres and Warr show that access to useful work, which can be defined and measured, explain the bulk of post-1900 income changes in Japan, Britain and the USA. They see rising real prices for fossil fuel and stagnating efficiencies of converting raw energy into useful work as a threat to continued income growth. This brilliant and original work has profound policy implications for future income growth without significant improvements in energy conversion efficiency. Thomas Casten, Chairman, Recycled Energy Development LLC Following the up-and-down energy shock of 2008, Ayres and Warr offer a unique analysis critical to our economic future. They argue that useful work produced by energy and energy services is far more important to overall GDP growth than conventional economic theory assumes. Their new theory, based on extensive empirical and theoretical analysis, has important implications for economists, businessmen and policymakers for anybody concerned with our economic future. Ayres and Warr argue persuasively that economic growth is not only endogenous but has been driven for the past two centuries largely by the declining effective cost of energy. If their new theory is correct, the inevitable future rise of the real cost of energy (beyond the $147 oil price peak in July 2008), could halt economic growth in the US and other advanced countries unless we dramatically improve energy with technology. J. Paul Horne, independent international market economist The historic link between output (GDP) growth and employment has weakened. Since there is no quantitively verifiable economic theory to explain past growth, this unique book explores the fundamental relationship between thermodynamics (physical work) and economics. The authors take a realistic approach to explaining the relationship between technological progress, thermodynamic efficiency and economic growth. Their findings are a step toward the integration of neo-classical and evolutionary perspectives on endogenous economic growth, concluding in a fundam
This paper examines the long-run relationship between energy consumption and real GDP, including energy prices, for 25 OECD countries from 1981 to 2007. The distinction between common factors and idiosyncratic components using principal component analysis allows to distinguish between developments on an international and a national level as drivers of the long-run relationship. Indeed, cointegration between the common components of the underlying variables indicates that international developments dominate the long-run relationship between energy consumption and real GDP. Furthermore, the results suggest that energy consumption is price-inelastic. Causality tests indicate the presence of a bi-directional.
The potential conflict among economic and ecological goals has formed the central fault line of environmental politics in the United States and most other countries since the 1970s. The accepted view is that efforts to protect the environment will detract from economic growth, jobs, and global competitiveness. Conversely, much advocacy on behalf of the environment focuses on the need to control growth and avoid its more damaging effects. This offers a stark choice between prosperity and growth, on the one hand, and ecological degradation on the other. Stopping or reversing growth in most countries is unrealistic, economically risky, politically difficult, and is likely to harm the very groups that should be protected. At the same time, a strategy of unguided "growth above all" would cause ecological catastrophe. Over the last decade, the concept of green growth -- the idea that the right mix of policies, investments, and technologies will lead to beneficial growth within ecological limits -- has become central to global and national debates and policy due to the financial crisis and climate change. As Daniel J. Fiorino argues, in order for green growth to occur, ecological goals must be incorporated into the structure of the economic and political systems. In this book, he looks at green growth, a vast topic that has heretofore not been systematically covered in the literature on environmental policy and politics. Fiorino looks at its role in global, national, and local policy making; its relationship to sustainable development; controversies surrounding it (both from the left and right); its potential role in ameliorating inequality; and the policy strategies that are linked with it. The book also examines the political feasibility of green growth as a policy framework. While he focuses on the United States, Fiorino will draw comparisons to green growth policy in other countries, including Germany, China, and Brazil.
China's Dilemma - Economic Growth, the Environment and Climate Change examines the challenges China will have to confront in order to maintain rapid growth while coping with the global financial turbulence, some rising socially destabilising tensions such as income inequality, an over-exploited environment and the long-term pressures of global warming. China's Dilemma discusses key questions that will have an impact on China's growth path and offers some in-depth analyses as to how China could confront these challenges. The authors address the effect of the global credit crunch and financial shocks on China's economic growth; China's contribution to greenhouse gas emissions and emissions reduction schemes; the environmental consequences of foreign direct investment in China; the relationship between air pollution and mortality; the effect of climate change on agricultural output; the coal industry's compliance with tougher regulations; and the constraints water shortages may impose on China's economy. It also emphasises the importance of managing the rising demand for energy to moderate oil price increases and placating domestic and international concerns about global warming. In the thirty years since China started on the path of reform, it has emerged as one of the largest and most dynamic economies in the world. This carries with it the responsibility to balance the requirements of key industries that are driving its development with the need to ensure that its growth is both equitable and sustainable. China's Dilemma highlights key lessons learned from the past thirty years of reform in order to pave the way for balanced and sustained growth in the future.
Reviews the latest advances in biofuel manufacturing technologies and discusses the deployment of other renewable energy for transportation Aimed at providing an interface useful to business and scientific managers, this book focuses on the key challenges that still impede the realization of the billion-ton renewable fuels vision. It places great emphasis on a global view of the topic, reviewing deployment and green energy technology in different countries across Africa, Asia, South America, the EU, and the USA. It also integrates scientific, technological, and business development perspectives to highlight the key developments that are necessary for the global replacement of fossil fuels with green energy solutions. Green Energy to Sustainability: Strategies for Global Industries examines the most recent developments in biofuel manufacturing technologies in light of business, financial, value chain, and supply chain concerns. It also covers the use of other renewable energy sources like solar energy for transportation and proposes a view of the challenges over the next two to five decades, and how these will deeply modify the industrial world in the third millennium. The coming of age of electric vehicles is also looked at, as is the impact of their deployment on the biomass to biofuels value chain. Offers extensive updates on the field of green energy for global industries Covers the structure of the energy business; chemicals and diesel from biomass; ethanol and butanol; hydrogen and methane; and more Provides an expanded focus on the next generation of energy technologies Reviews the latest advances in biofuel manufacturing technologies Integrates scientific, technological and business perspectives Highlights important developments needed for replacing fossil fuels with green energy Green Energy to Sustainability: Strategies for Global Industries will appeal to academic researchers working on the production of fuels from renewable feedstocks and those working in green and sustainable chemistry, and chemical/process engineering. It is also an excellent textbook for courses in bioprocessing technology, renewable resources, green energy, and sustainable chemistry.