Intermittent drying (ID) is considered one of the most promising solutions for improving energy efficiency and product quality. This book demonstrates the benefits of ID in terms of energy efficiency
Ecology and Applied Environmental Science presents a brief theoretical approach to ecology, based on energy, population and cycles of chemical elements. This introductory textbook examines a good sele
Addressing the principles of sustainability, spatial planning, integration, governance and accessibility of transport, this book focuses on the problem of providing efficient and low energy transport
What does it mean to write in and about sound? How can literature, seemingly a silent, visual medium, be sound-bearing? This volume considers these questions by attending to the energy generated by the sonic in literary studies from the late nineteenth century to the present. Sound, whether understood as noise, music, rhythm, voice or vibration, has long shaped literary cultures and their scholarship. In original chapters written by leading scholars in the field, this book tunes in to the literary text as a site of vocalisation, rhythmics and dissonance, as well as an archive of soundscapes, modes of listening, and sound technologies. Sound and Literature is unique for the breadth and plurality of its approach, and for its interrogation and methodological mapping of the field of literary sound studies.
This undergraduate textbook examines environmental pollution ranging from our homes to the global environment. Completely updated and with over 50% new and rewritten material, this new edition assesses the international scope of pollution, including water, climate change, acidification, energy, solid and hazardous waste, persistent chemicals, and pesticides. The pollutants of current major concern are examined, including plastics and electronic waste. Both the impacts and the sources of pollution are addressed, as well as governmental, corporate, and personal responsibility for pollution. Pollution prevention is emphasized throughout, but students will come to see that prevention is not enough. The text moves on to examine a circular economy with closed-loop systems, where by-products are reused, wastes become raw materials, water is recycled, and energy is recovered from waste energy. Understanding Environmental Pollution engages students with the idea that humanity holds the tools to
Aircraft emissions currently account for ~3.5% of all greenhouse gas emissions. The number of passenger miles has increased by 5% annually despite 9/11, two wars and gloomy economic conditions. Since
The new edition of this popular textbook provides a fundamental approach to phase transformations and thermodynamics of materials. Explanations are emphasised at the level of atoms and electrons, and it comprehensively covers the classical topics from classical metallurgy to nanoscience and magnetic phase transitions. The book has three parts, covering the fundamentals of phase transformations, the origins of the Gibbs free energy, and the major phase transformations in materials science. A fourth part on advanced topics is available online. Much of the content from the first edition has been expanded, notably precipitation transformations in solids, heterogeneous nucleation, and energy, entropy and pressure. Three new chapters have been added to cover interactions within microstructures, surfaces, and solidification. Containing over 170 end-of-chapter problems, it is a valuable companion for graduate students and researchers in materials science, engineering, and applied physics.
Energy risk and security have become topical matters in Western and international policy discussions; ranging from international climate change mitigation to investment in energy infrastructures to su
The sciences played a critical role in American foreign policy after World War II. From atomic energy and satellites to the green revolution, scientific advances were central to American diplomacy in the early Cold War, as the United States leveraged its scientific and technical pre-eminence to secure alliances and markets. The growth of applied research in the 1970s, exemplified by the biotech industry, led the United States to promote global intellectual property rights. Priorities shifted with the collapse of the Soviet Union, as attention turned to information technology and environmental sciences. Today, international relations take place within a scientific and technical framework, whether in the headlines on global warming and the war on terror or in the fine print of intellectual property rights. Science and American Foreign Relations since World War II provides the historical background necessary to understand the contemporary geopolitics of science.
Understand the fundamental theory and practical design aspects of green and soft wireless communications networks with this expert text. It provides comprehensive and unified coverage of 5G physical layer design, as well as design of the higher and radio access layers and the core network, drawing on viewpoints from both academia and industry. Get to grips with the theory through authoritative discussion of information-theoretical results, and learn about fundamental green design trade-offs, software-defined network architectures, and energy efficient radio resource management strategies. Applications of wireless big data and artificial intelligence to wireless network design are included, providing an excellent design reference, and real-world examples of employment in software-defined 5G networks and energy saving solutions from wireless communications companies and cellular operators help to connect theory with practice. This is an essential text for graduate students, professionals
The sciences played a critical role in American foreign policy after World War II. From atomic energy and satellites to the green revolution, scientific advances were central to American diplomacy in the early Cold War, as the United States leveraged its scientific and technical pre-eminence to secure alliances and markets. The growth of applied research in the 1970s, exemplified by the biotech industry, led the United States to promote global intellectual property rights. Priorities shifted with the collapse of the Soviet Union, as attention turned to information technology and environmental sciences. Today, international relations take place within a scientific and technical framework, whether in the headlines on global warming and the war on terror or in the fine print of intellectual property rights. Science and American Foreign Relations since World War II provides the historical background necessary to understand the contemporary geopolitics of science.
Classical field theory predicts how physical fields interact with matter, and is a logical precursor to quantum field theory. This introduction focuses purely on modern classical field theory, helping graduates and researchers build an understanding of classical field theory methods before embarking on future studies in quantum field theory. It describes various classical methods for fields with negligible quantum effects, for instance electromagnetism and gravitational fields. It focuses on solutions that take advantage of classical field theory methods as opposed to applications or geometric properties. Other fields covered includes fermionic fields, scalar fields and Chern–Simons fields. Methods such as symmetries, global and local methods, Noether theorem and energy momentum tensor are also discussed, as well as important solutions of the classical equations, in particular soliton solutions.
Wind power has developed rapidly in terms of the number of new wind power plants now installed in more than hundred countries around the world. This renewable energy source has become competitive, and
Nuclear technology places special demands on society and both nuclear weapons and nuclear energy for peaceful purposes require a large measure of security and monitoring at the international level. Th
This book draws on original research bringing together dimensions of cities we know have a bearing on our health and wellbeing--including transportation, housing, energy, and foodways--and illust
This book draws on original research bringing together dimensions of cities we know have a bearing on our health and wellbeing--including transportation, housing, energy, and foodways--and illust
This textbook puts design at the center of introducing students to the course in mass and energy balances in chemical engineering. Employers and accreditations increasingly stress the importance of design in the engineering curriculum, and design-driven analysis will motivate students to dig deeply into the key concepts of the field. The second edition has been completely revised and updated. It introduces the central steps in design and three methods of analysis: mathematical modeling, graphical methods, and dimensional analysis. Students learn how to apply engineering skills, such as how to simplify calculations through assumptions and approximations; how to verify calculations, significant figures, spreadsheets, graphing (standard, semi-log and log-log); and how to use data maps, in the contexts of contemporary chemical processes such as the hydrogen economy, petrochemical and biochemical processes, polymers, semiconductors, and pharmaceuticals.
