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"The Most Powerful Idea in the World argues that the very notion of intellectual property drove not only the invention of the steam engine but also the entire Industrial Revolution." -- Back cover.
The central theme of this book is the process through which steam power first emerged and then grew into a major industrial technology, from the early 18th to the mid-19th centuries. By applying contemporary economic theory to the history of technological change, Dr Nuvolari argues that we can gain a better understanding of the factors that led to steam power becoming a driving force in the Industrial Revolution.
How capitalism first promoted fossil fuels with the rise of steam power The more we know about the catastrophic implications of climate change, the more fossil fuels we burn. How did we end up in this mess? In this masterful new history, Andreas Malm claims it all began in Britain with the rise of steam power. But why did manufacturers turn from traditional sources of power, notably water mills, to an engine fired by coal? Contrary to established views, steam offered neither cheaper nor more abundant energy—but rather superior control of subordinate labour. Animated by fossil fuels, capital could concentrate production at the most profitable sites and during the most convenient hours, as it continues to do today. Sweeping from nineteenth-century Manchester to the emissions explosion in China, from the original triumph of coal to the stalled shift to renewables, this study hones in on the burning heart of capital and demonstrates, in unprecedented depth, that turning down the heat will mean a radical overthrow of the current economic order.
With the overwhelming amount of new information that bombards us each day, it is perhaps difficult to imagine a time when the widespread availability of the printed word was a novelty. In early nineteenth-century Britain, print was not novel—Gutenberg’s printing press had been around for nearly four centuries—but printed matter was still a rare and relatively expensive luxury. All this changed, however, as publishers began employing new technologies to astounding effect, mass-producing instructive and educational books and magazines and revolutionizing how knowledge was disseminated to the general public. In Steam-Powered Knowledge, Aileen Fyfe explores the activities of William Chambers and the W. & R. Chambers publishing firm during its formative years, documenting for the first time how new technologies were integrated into existing business systems. Chambers was one of the first publishers to abandon traditional skills associated with hand printing, instead favoring the latest innovations in printing processes and machinery: machine-made paper, stereotyping, and, especially, printing machines driven by steam power. The mid-nineteenth century also witnessed dramatic advances in transportation, and Chambers used proliferating railway networks and steamship routes to speed up communication and distribution. As a result, his high-tech publishing firm became an exemplar of commercial success by 1850 and outlived all of its rivals in the business of cheap instructive print. Fyfe follows Chambers’s journey from small-time bookseller and self-trained hand-press printer to wealthy and successful publisher of popular educational books on both sides of the Atlantic, demonstrating along the way the profound effects of his and his fellow publishers’ willingness, or unwillingness, to incorporate these technological innovations into their businesses.
This practical, instructional book describes the construction of a model of the Lampitt portable steam engine, which dates back to 1862, and which provided rotative power to drive threshing machines, circular saws, feed mills and other farm machinery. The construction of every component is described in precise detail and the text is supported by many helpful step-by-step photographs. In addition, useful advice is provided about obtaining materials and about the tools that are required to equip a model-engineering workshop. Accordingly, the information provided in this fascinating book will enable the reader to construct not only the Lampitt engine but also many other engineering models in the future. When the reader has finished building 'the Lampitt' he will, in effect, have completed an engineering apprenticeship, and will have a model engine of which he can be proud and which fully reveals the skills that he has learned. Fully illustrated with 142 step-by-step colour photographs.
Heat Recovery Steam Generator Technology is the first fully comprehensive resource to provide readers with the fundamental information needed to understand HRSGs. The book's highly experienced editor has selected a number of key technical personnel to contribute to the book, also including burner and emission control device suppliers and qualified practicing engineers. In the introduction, various types of HRSGs are identified and discussed, along with their market share. The fundamental principles of the technology are covered, along with the various components and design specifics that should be considered. Its simple organization makes finding answers quick and easy. The text is fully supported by examples and case studies, and is illustrated by photographs of components and completed power plants to further increase knowledge and understanding of HRSG technology. - Presents the fundamental principles and theories behind HRSG technology that is supported by practical design examples and illustrations - Includes practical applications of combined cycle power plants and waste recovery that are both fully covered and supported by optimization throughout the book - Helps readers do a better job of specifying, procuring, installing, operating, and maintaining HRSGs
This book examines how modern steam locomotive works, including all its major sub-systems and appliances. Illustrations show how each part of the locomotive fits into the overall functioning, some background on each aspect of each function, and examples of various locomotives from a wide variety of railroads all over the U.S. The book is written for the layman to understand, providing a really easy to comprehend, yet technically competent and complete volume that will be valuable for anyone interested in the steam era.
The definitive reference on the role of steam in the production and operation of power plants for electric generation and industrial process applications For more than 80 years, Steam Plant Operation has been an unmatched source of information on steam power plants, including design, operation, and maintenance. The Tenth Edition emphasizes the importance of devising a comprehensive energy plan utilizing all economical sources of energy, including fossil fuels, nuclear power, and renewable energy sources. This trusted classic discusses the important role that steam plays in our power production and identifies the associated risks and potential problems of other energy sources. You will find concise explanations of key concepts, from fundamentals through design and operation. For energy students, Steam Plant Operation provides a solid introduction to steam power plant technology. This practical guide includes common power plant calculations such as plant heat rate, boiler efficiency, pump performance, combustion processes, and explains the systems necessary to control plant emissions. Numerous illustrations and clear presentation of the material will prove invaluable for those preparing for an operator’s license exam. Examples throughout show real-world application of the topics discussed. COVERAGE INCLUDES: • Steam and Its Importance • Boilers • Design and Construction of Boilers • Combustion of Fuels • Boiler Settings, Combustion Systems, and Auxiliary Equipment • Boiler Accessories • Operation and Maintenance of Boilers • Pumps • Steam Turbines, Condensers, and Cooling Towers • Operating and Maintaining Steam Turbines, Condensers, Cooling Towers, and Auxiliaries • Auxiliary Steam Plant Equipment • Environmental Control Systems • Waste-to-Energy Plants