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1

Schenkel, Mark. The effects of time-of-use electricity rates on New York dairy farms. Ithaca, N.Y: Dept. of Agricultural, Resource, and Managerial Economics, College of Agricultural and Life Sciences, Cornell University, 1994.

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2

Schenkel, Mark. The effects of time-of-use electricity rates on New York dairy farms. Ithaca, N.Y: Dept. of Agricultural, Resource, and Managerial Economics, College of Agricultural and Life Sciences, Cornell University, 1994.

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3

Henley, Andrew. Multivariate analysis of variance of consumption data from a British time-of-use electricity pricing experiment. Canterbury: University of Kent at Canterbury, 1993.

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4

Beggs, C. B. The use of ice thermal storage with real time electricity pricing. Leicester: De Montfort University, 1995.

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5

Borenstein, Severin. Wealth transfers from implementing real-time retail electricity pricing. Cambridge, MA: National Bureau of Economic Research, 2005.

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6

Borenstein, Severin. Wealth transfer from implementing real-time retail electricity pricing. Cambridge, MA: National Bureau of Economic Research, 2005.

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7

Poirier, Dale J. Individual household demand for electricity in the Ontario time-of-use pricing experiment. Toronto: University of Toronto,Department of Economics and Institute for Policy Analysis, 1985.

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8

Caves, Douglas W. The feasibility of conducting an electricity real-time pricing experiment in Maryland. Annapolis, Md: The Division, 1989.

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9

Centre for Development Studies (Trivandrum, India), Hrsg. Modeling optimal time-differential pricing of electricity under uncertainty: Revisiting the welfare foundations. Thiruvananthapuram: Centre for Development Studies, 2012.

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10

Acton, Jan Paul. Response to time-of-day electricity rates by large business customers: Reconciling conflicting evidence. Santa Monica, CA: Rand, 1987.

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11

Hoile, David J. An econometric study of a British residential time-of-use electricity pricing experiment: A small contribution to saving mother earth. [s.l.]: typescript, 1995.

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12

Time-of-use rates and electricity costs of representative New York dairy farms. Ithaca, N.Y: Dept. of Agricultural Economics, Cornell University Agricultural Experiment Station, College of Agriculture and Life Sciences, Cornell University, 1992.

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13

Institute Of Electrical and Electronics Engineers. American National Standard for Electronic Time-Of-Use Registers for Electricity Meters (Ansi). Institute of Electrical & Electronics Enginee, 1997.

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14

Rez, Peter. The Simple Physics of Energy Use. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198802297.001.0001.

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In industrially developed countries, energy is used primarily for three things—maintaining a comfortable environment in buildings, transporting people and goods and manufacturing products. Each accounts for about one-third of the total primary energy use. Controlling the indoor temperature accounts for most of the energy use in buildings. Therefore, this strongly depends on the local climate. Electricity accounts for a high proportion of the energy transfer in developed countries. The problem is that electricity cannot easily be stored, and that supply therefore has to match demand. This makes the use of intermittent renewables such as solar and wind particularly challenging. Transportation efficiency can be measured by the energy used to move a person or a tonne of freight over a given distance, but there is also the journey time to consider. Transportation, with the exception of trains, is constrained by the energy density and convenience of fuels, and it is hard to beat liquid hydrocarbons as fuels. Materials that are dug out of the earth are nearly always oxides, but we want the element itself. The reduction process inevitably uses energy and produces carbon dioxide. Even growing crops requires energy in addition to that provided by sunlight. A meat-based diet requires significantly higher energy inputs than a vegetarian diet. Growing crops for fuel is a poor use of land, the problem being that crops do not grow fast enough. Policy should ultimately be based on what works from a physics and engineering viewpoint, and not on legislation that mandates the use of favoured renewable energy sources.
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15

Schurr, Sam H., Calvin C. Burwell, Warren S. Devine und Sidney Sonenblum. Electricity in the American Economy. Greenwood Publishing Group, Inc., 1990. http://dx.doi.org/10.5040/9798216186588.

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Electricity has penetrated deeply into virtually every aspect of American life, be it in industry, the home, or in the rapidly growing commercial and service sectors. This book documents and analyzes the existence of a strong, and growing, synergy between technological progress and the use of electrified production techniques in the United States during the twentieth century. The authors use two types of information in their work: case studies of the ways in which technological progress in particular industries and economic sectors has depended upon the adoption of electrified methods of production and aggregative long-term national economic statistics that measure the changing relationship over time between increases in the use of electricity and other factor inputs and the growth in industrial productivity. Eleven of the book's thirteen chapters cover the case studies, while the remaining two chapters and the statistical appendix contain the broad quantitative findings and supporting data. In their analysis, the authors address three inter-related questions from a long-term evolutionary perspective: Why has electricity's share of total energy risen so sharply over the years? How has this rise been related to productivity growth? and Why has the rise in electricity led to long-term improvements in the efficiency of overall energy use despite the thermal energy losses sustained when fuels are converted into electricity? The answer to these questions, they contend, is the technological progress represented by electrified production technologies, and in the new ways of organizing production that are now possible. The different ways in which electrical energy has been put to work, and with what results, are examined in the various case studies presented, and further documented in the aggregative statistical analysis. This study reveals the important role that the electrification of production operations has played in supporting productivity growth in manufacturing and other economic sectors in the past, and the important part that it can continue to play in the future. This book will appeal to a broad spectrum of readers; those interested in productivity issues, energy policy, electricity in general, historians of technology, economic historians, and those interested in current technological issues. It will be a necessary acquisition for college and university libraries, as well as those individuals interested in energy, technology, economic growth, history, and the interfaces among them.
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16

Jelley, Nick. A Dictionary of Energy Science. Oxford University Press, 2017. http://dx.doi.org/10.1093/acref/9780191826276.001.0001.

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Over 700 entriesThis new dictionary covers terms related to energy technologies and their impact on the world’s energy use. It sets out the principles behind each technology’s operation, as well as its economic, environmental, and social impacts. Coverage includes energy demand and conservation, electricity generation and distribution, energy storage, renewable energy and fossil fuel technologies, nuclear energy, environmental issues, energy and society, and biographies of eminent energy scientists. The text is complemented by illustrations, a chronology, and global statistics on energy use.This topical dictionary appears at a time when the development of alternative technologies to fossil fuel is particularly important in trying to limit global warming, and is significantly affected by energy policy and politics. It is an invaluable resource for students of science, geography, and economics, and for professionals in energy-related industries.
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17

Boreiko, Dmitrijs. Methods and Algorithms for Increasing Energy Efficiency of Manufacturing Enterprises. RTU Press, 2022. http://dx.doi.org/10.7250/9789934228247.

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In the Thesis, the author analyses the globally amassed experience regarding the issues of energy efficiency and demand response. Using this experience along with modern technologies, the author has developed a methodology that makes it possible to use the increasing of energy efficiency as well as demand response for large producers with the aim to diminish electricity costs and the amount of CO2 emissions to the atmosphere. The complex approach includes such issues as optimisation of equipment use at the plant; optimisation of production cycles based on electricity prices; use of electricity storage in order to shift consumption in time, in conjunction with the above optimisation measures; integration of the plant’s own “green” generation in conjunction with the above optimisation measures. All of these suggestions and measures have been virtually approbated at an enterprise in Riga, which took an interest in this study and furnished the information necessary for the research.
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18

DeLong, Anne. Classic Horror. ABC-CLIO, LLC, 2018. http://dx.doi.org/10.5040/9798400627217.

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A valuable resource for readers exploring the classic horror genre, this book presents primary source documents alongside analysis in an examination of the social, political, and economic factors reflected in 19th century Gothic literature. The nineteenth century was a time of social, cultural, and economic change; revolutionary scientific developments; and enduring imaginative works. This book explores the classic horror genre of Gothic literature in its historical and social contexts. It contains chapters on four major works of classic horror, with each chapter providing a mix of background information, primary source historical documents, and analysis that will appeal as much to high school and college students as to lovers of literature and the Victorian era. Coleridge's The Rime of the Ancient Mariner is contextualized through documents pertaining to British imperialism, Antarctic Exploration, and the burgeoning environmentalist movement. Shelley's Frankenstein is explored through sections on galvanism, electricity, grave robbing, and the vitalist debate. Stevenson's The Strange Case of Dr. Jekyll and Mr. Hyde is read through explanations of nineteenth-century drug use and addiction and early theories of psychology and criminology. Stoker's Dracula is studied with reference to such topics as mesmerism, clairvoyance, alienism, medical ethics, xenophobia, and Victorian pseudoscience.
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