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The pertinence of this book's subject—energy conservation through architectural and urban design—will hardly need belaboring in the 1970s. For more than a decade, Ralph L. Knowles has investigated ways in which buildings, settlements, and even regions can be planned so as to take advantage of natural cycles—in particular, the daily and seasonal rhythms of the sun—in order to minimize the need for supportive energy inputs to maintain internal temperatures and other variables at desirable and steady levels. Energy and Formfully reports the results of Knowles's investigations, for which he received the 1974 Medal for Research from the American Institute of Architects.
Architecture is energy. Lines drawn on paper to represent architectural intentions also imply decades and sometimes centuries of associated energy and material flows. Form Follows Energy is about the relationship between energy and the form of our built environment. It examines the optimisation of energy flows in building and urban design and the implications for form and configuration. It speaks to both architectural and engineering audiences and offers for the first time a truly interdisciplinary overview on the subject, explaining the complex relationships between energy and architecture in an easy to follow manner and using simple diagrams to show how energy design strategies can be used to maximize the energy performance of our built environment, while at the same time leading to new aesthetic qualities and radically new forms in architecture and urban design. Case studies are used to illustrate the theory. The books philosophy is based on the guiding principles underlying nearly 30 years work in practice, research and teaching. It is relatively easy to make something simple seem complicated. To make a complex topic seem simple and easily understandable is far more of a challenge and this is the aim of this book.
Energy and Urban Built Form contains the papers that were presented at the International Seminar on Urban Built Form and Energy Analysis, held at Darwin College in Cambridge on June 26 and 27, 1986. The seminar focused on energy use in the built environment at an intermediate scale, between individual buildings and cities, where urban and architectural factors interact. It also covers the simulation and analysis of the performance of groups of buildings, from city blocks and industrial developments to mixed-use urban developments, housing estates, and stocks of buildings such as schools and houses. Organized into four parts encompassing 13 chapters, this volume describes techniques for calculating and minimizing energy consumption in groups of buildings, cities or entire regions. It first provides an overview of mathematical models, as well as approaches to the computation of the energy demand or energy-related properties of housing designs or groups of buildings. It then explores the politics of energy and the built environment, the mechanisms by which technical developments may be translated into effective action, and the energy efficiency of the urban built form. The reader is also introduced to passive solar scenarios for the UK domestic sector, intermediate-scale energy initiatives in the United Kingdom, thermal efficiency of building clusters, and glazed courtyards as an element of the low-energy city. This book is a valuable resource for city planners and engineers, scientists, and anyone interested in energy conservation.
Energy Resources mainly focuses on energy, including its definition, historical perspective, sources, utilization, and conservation. This text first explains what energy is and what its uses are. This book then explains coal, oil, and natural gas, which are some of the common energy sources used by various industries. Other energy sources such as wind, solar, geothermal, water, and nuclear energy sources are also tackled. This text also looks into fusion energy and techniques of energy conversion. This book concludes by explaining the energy allocation and utilization crisis. This publication will be invaluable to those interested in energy science.
A Buddhist manual for replacing an anxious, narrow, uncomfortable identity with one that is expansive, peaceful, and capable. In the shamanic worldview of Tibet, the five elements of earth, water, fire, air, and space are accessed through the raw powers of nature and through non-physical beings associated with the natural world. The Tibetan tantric view recognizes the elements as five kinds of energy in the body and balances them with a program of yogic movements, breathing exercises, and visualizations. In Dzogchen teachings, the elements are understood to be the radiance of being, and are accessed through pure awareness. Healing with Form, Energy, and Light offers the reader healing meditations and yogic practices on each of these levels. Tenzin Rinpoche's purpose is to strengthen our connection to the sacred aspect of the natural world and to present a guide that explains why certain practices are necessary and in what situations practices are effective or a hindrance. And the world too is transformed from dead matter and blind processes into a sacred landscape filled with an infinite variety of living forces and beings. "The secrets freely given in this volume can help us lay sound foundations for whatever yogic practice we may adopt. Tenzin Rinpoche has rendered all a great service." —Yoga Studies
Explains essential facts about energy including the difference between kinetic and potential energy, different energy sources, and how energy is stored, transferred, and used.
Fundamentals of Renewable Energy Systems goes beyond theoretical aspects of advances in renewable energy and addresses future trends. By focusing on the design of developing technologies, relevant operation and detailed background and an understanding of the application of power electronics and thermodynamics processes in renewable energy, this book provides an analysis of advancing energy systems. The book will be of interest to engineering graduates, researchers, professors and industry professionals involved in the renewable energy sector and is ideal for advanced engineering courses dealing with renewable energy, sources, thermal and electrical energy production and sustainability. With increasing focus on developing low carbon energy production, audiences need to have the engineering knowledge and practical skills to develop and implement creative solutions to engineering problems encountered with renewable energy technologies. By looking at renewable energy capture and conversion, system design and analysis, project development and implementation, each modular chapter examines recent advances in specific renewable energy systems with detailed methods, calculations and worked examples. Includes recent techniques used to design and model different renewable energy sources (RES) Demonstrates how to use power electronics in renewable systems Discusses how to identify, design, integrate and operate the most suitable technologies through key problems