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Passive solar design techniques are becoming increasingly important in building design. This design reference book takes the building engineer or physicist step-by-step through the thermal analysis and design of passive solar buildings. In particular it emphasises two important topics: the maximum utilization of available solar energy and thermal storage, and the sizing of an appropriate auxiliary heating/cooling system in conjunction with good thermal control. Thermal Analysis and Design of Passive Solar Buildings is an important contribution towards the optimization of buildings as systems that act as natural filters between the indoor and outdoor environments, while maximizing the utilization of solar energy. As such it will be an essential source of information to engineers, architects, HVAC engineers and building physicists.
Solar Energy Application in Buildings discusses the successful utilization of the Sun's energy in various cultures, continents, and climates. This book consists of 19 chapters and begins with considerable chapters devoted to the fundamentals of solar energy, including climate, storage, and material properties. The subsequent chapters discuss the concept of passive heating and cooling in buildings. The remaining nine chapters deal with various applications of solar energy in buildings in the United States, Iran, Canada, Germany, Japan, New Zealand, Great Britain, India, and France. This work will be of great value to scientists and engineers who are interested in the great potential of solar energy.
It's already impossible to imagine energy-efficient construction without photovoltaics and solar thermal. Yet, the EU-wide introduction of low energy standards for new buildings stipulates that buildings must meet their energy needs in whole or in part from the sun by 2021 at the latest. The integration of solar systems into buildings is no longer just a technical matter, but also a structural and aesthetic challenge. This book provides the necessary expertise for this purpose. In addition to basic physics and technological developments in photovoltaics and solar thermal, the publication offers abundant advice from architects on how to successfully integrate solar systems into buildings. A number of chapters address the economical and ecological deployment of solar technology as well as issues of building laws and the preservation of listed buildings. Illustrated and expanded by numerous photos and detailed project documentation, "Building-Integrated Solar Technology" not only demonstrates the tremendous variety of construction tasks and integration possibilities, but also shows that self-sustaining buildings in terms of energy can also become a powerful architectural and cultural asset.
Designing with Solar Power is the result of international collaborative research and development work carried out within the framework of the International Energy Agency's Photovoltaic Power Systems Programme (PVPS) and performed within its Task 7 on 'Photovoltaic power systems in the built environment'. Each chapter of this precisely detailed and informative book has been prepared by an international expert in a specific area related to the development, use and application of building-integrated photovoltaics (BiPV). Chapters not only cover the basics of solar power and electrical concepts, but also investigate the ways in which photovoltaics can be integrated into the design and creation of buildings equipped for the demands of the 21st century. The potential for BiPV, in both buildings and other structures, is explored together with broader issues such as market deployment, and international marketing and government strategies. In addition, more than 20 contemporary international case studies describe in detail how building-integrated photovoltaics have been applied to new and existing buildings, and discuss the architectural and technical quality, and the success of various strategies. Packed with photographs and illustrations, this book is an invaluable companion for architects, builders, designers, engineers, students and all involved with the exciting possibilities of building-integrated photovoltaics.
While heat from sunlight and ventilation from breezes is free for the taking, few modern architects or builders really understand the principles involved. Yet "natural conditioning"--Heating and cooling with passive solar techniques -- is a viable alternative to fossil fuels. Acknowledging the good intentions of misguided solar designers in the past, the author highlights certain egregious errors and shows how to avoid them. The author shows how to select a cost-effective, energy-efficient, and environmentally friendly backup heating system; how to preserve indoor air quality in an airtight, energy-efficient home; and ways of employing green building materials in a naturally conditioned home.
A complete overview of solar technologies relevant to the built environment, including solar thermal energy for heating and cooling, passive solar energy for daylighting and heating supply, and photovoltaics for electricity production Provides practical examples and calculations to enable component and system simulation e.g. Calculation of U-values, I-V curve parameters and radiance distribution modelling Discusses the new trends in thermal energy use, including the architectural integration of collector systems, integrated ventilation photovoltaics facades and solar powered absorption cooling systems Coverage of cutting-edge applications such as active and passive cooling techniques and results from ongoing research projects
This book is the result of recent research that deals with the built environment and innovative materials, carried out by specialists working in universities and centers of research in different professional fields ─ architecture, engineering, physics ─ and in an area that that spans from the Mediterranean Sea to the Persian Gulf, and from South Eastern Europe to the Middle East. This book takes the necessity of re-shaping the concept of building design in order to transform buildings from large scale energy consumers to energy savers and producers into consideration. The book is organized in two parts: theory and case studies. For the theoretical part, we chose from the wide range of sources that provide energy efficient materials and systems the two that seem to be endless: the sun and vegetation. Their use in building products represents a tool for specialists in the architectural design concept. The case-studies presented analyze different architectural programs, in different climates, from new buildings to rehabilitation approaches and from residential architecture to hospitals and sports arenas; each case emphasizes the interdisciplinarity of the building design activity in order to help readers gain a better understanding of the complex approach needed for energy efficient building design
A unique and revolutionary text which explains the principles behind the LT Method (2.1), a manual design tool developed in Cambridge by the BRE. The LT Method is a unique way of estimating the combined energy usage of lighting, heating, cooling and ventilation systems, to enable the designer to make comparisons between options at an early, strategic stage. In addition,Energy and Environment in Architecture the book deals with other environmental issues such as noise, thermal comfort and natural ventilation design. A variety of case studies provide a critique of real buildings and highlight good practice. These topics include thermal comfort, noise and natural ventilation.