This book provides an introduction to energy economics. It shows how to apply general economic theory as well as empirical and advanced econometric methods to explain the drivers of energy markets and their development. Readers learn about the specific properties of energy markets as well as the physical, technological, environmental, and geopolitical particularities of energy sources and products. The book covers all types of energy markets, ranging from liquid fuels, gaseous fuels, and solid fuels to electricity. It also addresses emission allowances, energy efficiency, and nuclear risks. The authors discuss the engineering properties of energy technologies including renewables, the economics of natural resources and environmental protection, market liberalization, and energy trade as well as the experience of the German energy transformation. This book will serve students as a textbook and practitioners as a reference for their understanding of energy markets and their development.
Energy and Economic Myths: Institutional and Analytical Economic Essays is a collection of materials that deal with various issues and concerns in economics. The title aims to clarify the misconception in economics. The first part of the text deals with the issues in natural resources and the economics of production. Next, the selection tackles the problems in institutional economics. Part III covers the epistemological and methodological concerns in economics. The title also talks about economic theories. The book will be of great interest to economists and readers who want to enhance their understanding of economic concepts.
In this updated edition of a groundbreaking text, concepts such as energy return on investment (EROI) provide powerful insights into the real balance sheets that drive our “petroleum economy.” Hall and Klitgaard explore the relation between energy and the wealth explosion of the 20th century, and the interaction of internal limits to growth found in the investment process and rising inequality with the biophysical limits posed by finite energy resources. The authors focus attention on the failure of markets to recognize or efficiently allocate diminishing resources, the economic consequences of peak oil, the high cost and relatively low EROI of finding and exploiting new oil fields, including the much ballyhooed shale plays and oil sands, and whether alternative energy technologies such as wind and solar power can meet the minimum EROI requirements needed to run society as we know it. For the past 150 years, economics has been treated as a social science in which economies are modeled as a circular flow of income between producers and consumers. In this “perpetual motion” of interactions between firms that produce and households that consume, little or no accounting is given of the flow of energy and materials from the environment and back again. In the standard economic model, energy and matter are completely recycled in these transactions, and economic activity is seemingly exempt from the Second Law of Thermodynamics. As we enter the second half of the age of oil, when energy supplies and the environmental impacts of energy production and consumption are likely to constrain economic growth, this exemption should be considered illusory at best. This book is an essential read for all scientists and economists who have recognized the urgent need for a more scientific, empirical, and unified approach to economics in an energy-constrained world, and serves as an ideal teaching text for the growing number of courses, such as the authors’ own, on the role of energy in society.
This easy-to-read book presents an elementary yet comprehensive introduction to modern energy economics. Mathematical content is kept to a minimum, and advanced numerical concepts are placed in appendices. The two survey chapters are suitable for readers with little or no formal training in economics. Differing greatly from other energy textbooks, the book aims to provide the reader with an informed advantage. Principally intended as a textbook for undergraduate economics students, it can also be used for self-study or as a reference material.
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
Energy Economics: Science, Policy, and Economic Applications explains energy systems from an economics perspective. Specifically, the author uses the tools of economics to analyze the development of modern energy systems, the world’s reliance on fossil fuels, and the components of a transition to cleaner energy resources. He also considers the science and policy underlying important energy issues, especially with respect to nuclear energy and the climate crisis, arguing that, without changes to the world’s fossil fuel consumption patterns, an increase in demand for energy will exacerbate environmental problems. This reality demonstrates the importance of the book's analysis of primary energy sources, energy supply and demand, and energy systems. Energy matters are fundamental to our way of life; yet, when it comes to energy economics, many people do not have a working vocabulary.
Neoclassical growth theory is the dominant perspective for explaining economic growth. At its core are four implicit assumptions: 1) economic output can become decoupled from energy consumption; 2) economic distribution is unrelated to growth; 3) large institutions are not important for growth; and 4) labor force structure is not important for growth. Drawing on a wide range of data from the economic history of the United States, this book tests the validity of these assumptions and finds no empirical support. Instead, connections are found between the growth in energy consumption and such disparate phenomena as economic redistribution, corporate employment concentration, and changing labor force structure. The integration of energy into an economic growth model has the potential to offer insight into the future effects of fossil fuel depletion on key macroeconomic indicators, which is already manifested in stalled or diminished growth and escalating debt in many national economies. This book argues for an alternative, biophysical perspective to the study of growth, and presents a set of "stylized facts" that such an approach must successfully explain. Aspects of biophysical analysis are combined with differential monetary analysis to arrive at a unique empirical methodology for investigating the elements and dependencies of the economic growth process.
All human activities, including mental activities, are governed by physical laws and are essentially thermodynamic processes. However, current economic theories are not established on these foundations. This pioneering book seeks to develop an analytical theory of economics on the foundation of thermodynamic laws. A unified understanding of economic and social phenomena is presented, an understanding that is much simpler than what mainstream economic theory has to offer. Its aim is to revolutionize thinking in economics and transform social sciences into an integral part of the physical and biological sciences.
Electricity is a quirky commodity: more often than not, it cannot be stored, easily transported, or imported from overseas. Before lighting up our homes, it changes hands through specialized electricity markets that rely on engineering expertise to trade competitively while respecting the physical requirements of the electric grid. The Current Economy is an ethnography of electricity markets in the United States that shows the heterogenous and technologically inflected nature of economic expertise today. Based on ethnographic fieldwork among market data analysts, electric grid engineers, and citizen activists, this book provides a deep dive into the convoluted economy of electricity and its reverberations throughout daily life. Canay Özden-Schilling argues that many of the economic formations in everyday life come from work cultures rarely suspected of doing economic work: cultures of science, technology, and engineering that often do not have a claim to economic theory or practice, yet nonetheless dictate forms of economic activity. Contributing to economic anthropology, science and technology studies, energy studies, and the anthropology of expertise, this book is a map of the everyday infrastructures of economy and energy into which we are plugged as denizens of a technological world.
This book is an up-to-date primer covering the most important subjects in energy economics, with particular attention paid to oil, natural gas, and nuclear energy, and without an excessive amount of mathematics. The first three survey chapters constitute an introductory (and mostly non-technical) short course in modern energy economics. Most of the technical analysis is taken up in the following four chapters, while the last chapter is a completely non-technical summation that can be read independent of the rest of the book. Written in a user-friendly tone, it is suitable as a textbook for undergraduate and/or graduate students, but most of the book should be accessible to anyone with a serious interest in energy economics.