Solar Architecture in Cool Climates


Book Description

'A must-read for practitioners, teachers and others interested in or working with energy use in the built environment, including a delightful set of examples' Ann Grete Hestnes, former President of the International Solar Energy Society Solar Architecture in Cool Climates is an invaluable primer on low energy building design, combining accessible information with convincing arguments enabling new techniques to be implemented in daily practice. Approaching the topic in a thematic manner, the book provides inspiration, an understanding of key principles and technical data on the design of solar buildings in higher latitudes. The text is enlivened through direct experience of case studies from Europe and North America dealing with new-build, retrofitting and conceptual projects that outline future potential (the principles being equally applicable to equivalent southern latitude locations. The authors examine the dilution of additional costs through different strategies, the tensions between energy efficiency and environmental quality, and the proactive control of energy in building design. Promoting flexibility and opportunity to a diverse audience, including those who use, procure and finance buildings, the book aims to bring the design of 'green' solar buildings in cool climates from special interest status into the mainstream. Broader environmental issues relating to solar architecture are addressed in the final chapter, again drawing on case studies from the authors' own wide experience. Solar Architecture in Cool Climates is written for architects and other building designers, students of architecture and other professionals interested in sustainable architecture, renewable energy and engineering.




Passive Solar Architecture


Book Description

New buildings can be designed to be solar oriented, naturally heated and cooled, naturally lit and ventilated, and made with renewable, sustainable materials—no matter the location or climate. In this comprehensive overview of passive solar design, two of America’s solar pioneers give homeowners, architects, designers, and builders the keys to successfully harnessing the sun and maximizing climate resources for heating, cooling, ventilation, and daylighting. Bainbridge and Haggard draw upon examples from their own experiences, as well as those of others, of more than three decades to offer both overarching principles as well as the details and formulas needed to successfully design a more comfortable, healthy, and secure place in which to live, laugh, dance, and be comfortable. Even if the power goes off. Passive Solar Architecture also discusses “greener” and more-sustainable building materials and how to use them, and explores the historical roots of green design that have made possible buildings that produce more energy and other resources than they use.




A House in the Sun


Book Description

A House in the Sun describes a number of experiments in solar house heating in the 1940s and 1950s. It shows how resource limitations were seen as an opportunity for design to attain new relevance for social and cultural transformations.




The Solar House


Book Description

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.




Stay Cool


Book Description

In hot dry or warm humid climates, more than half of the urban peak load of energy consumption is used to satisfy air-conditioning demands alone. Since the urbanization rate in developing countries is extreme, the pressure placed on energy resources to satisfy the future requirements of the built environment will be great, unless new, more cost-effective measures can be introduced. Stay Cool is an essential guide for planning and design using active design principles and passive means to satisfy human comfort requirements specifically in these climate zones, based on examples of traditional and modern constructions. The book demonstrates how a design strategy for urban environments and individual buildings, incorporating naturally occurring resources and specific energy-efficient technologies, can create a location, form and structure that promote significant energy-savings. Such strategies can be applied to low cost housing, or indeed to any other buildings, in order to improve comfort with passive means and low energy budgets. Following an outline of climatic issues, characteristics and thermal comfort requirements, the book details the available techniques and technologies that can be used to shape both built and external environments, the building envelope, material selections and natural ventilation and cooling methods to satisfy both human requirements and the need for energy efficiency. It also includes an active design checklist and summary of available design checking tools, a rehabilitation guide for existing urban, building and external environments, and solar charts. Planners, architects, engineers, technicians and building designers will find Stay Cool an inspirational guide and an essential reference when working with planning and design of the built environment in hot dry and warm humid climate zones. It will also be of benefit to students, academics and researchers with an interest in sustainable and energy-efficient architecture techniques and practice.




Natural Solar Architecture


Book Description

"Great book featuring designs for solar construction of homes and other architecture by David Wright, Environmental Architect. Over 80 black and white diagrams, plans, charts and illustrations of passive and solar designs. Measurement charts, topographical information."--




Passive Solar Architecture


Book Description

Discusses the architectural styles, construction techniques, materials, and energy efficiency of homes designed for solar energy systems in a wide range of climates.




The Passive Solar House


Book Description

Revised and Expanded Edition - Includes CD-ROM with Custom Design Software For the past ten years The Passive Solar House has offered proven techniques for building homes that heat and cool themselves, using readily available materials and methods familiar to all building contractors and many do-it-yourself homeowners. True to this innovative, straightforward approach, the new edition of this best-selling guide includes CSOL passive solar design software, making it easier than ever to heat your home with the power of the sun. Since The Passive Solar House was first published, passive solar construction expert James Kachadorian has perfected user-friendly, Windows-compatible software to supplement the design process explained in the book by allowing homeowners/designers to enter the specifications of their design and see how changing a variable will affect its energy efficiency. This is the building book for a world of climbing energy costs. Applicable to diverse regions, climates, budgets, and styles of architecture, Kachadorian's techniques translate the essentials of timeless solar design into practical wisdom for today's solar builders. Profiles of successful passive solar design, construction, and retrofit projects from readers of the first edition provide inspiration to first-time homebuilders and renovators alike.




Modern Architecture and Climate


Book Description

How climate influenced the design strategies of modernist architects Modern Architecture and Climate explores how leading architects of the twentieth century incorporated climate-mediating strategies into their designs, and shows how regional approaches to climate adaptability were essential to the development of modern architecture. Focusing on the period surrounding World War II—before fossil-fuel powered air-conditioning became widely available—Daniel Barber brings to light a vibrant and dynamic architectural discussion involving design, materials, and shading systems as means of interior climate control. He looks at projects by well-known architects such as Richard Neutra, Le Corbusier, Lúcio Costa, Mies van der Rohe, and Skidmore, Owings, and Merrill, and the work of climate-focused architects such as MMM Roberto, Olgyay and Olgyay, and Cliff May. Drawing on the editorial projects of James Marston Fitch, Elizabeth Gordon, and others, he demonstrates how images and diagrams produced by architects helped conceptualize climate knowledge, alongside the work of meteorologists, physicists, engineers, and social scientists. Barber describes how this novel type of environmental media catalyzed new ways of thinking about climate and architectural design. Extensively illustrated with archival material, Modern Architecture and Climate provides global perspectives on modern architecture and its evolving relationship with a changing climate, showcasing designs from Latin America, Europe, the United States, the Middle East, and Africa. This timely and important book reconciles the cultural dynamism of architecture with the material realities of ever-increasing carbon emissions from the mechanical cooling systems of buildings and offers a historical foundation for today’s zero-carbon design.




Passive Solar Architecture Pocket Reference


Book Description

Our pocket reference books provide a wealth of practical information at your fingertips, whenever you need it. Rich in background detail, at-a-glance tables and diagrams, equations, and more, the Passive Solar Architecture Pocket Reference is a handy resource for architects, engineers and students. Coverage includes: definitions load determinants and Responses (including world wide biomes and climates, building metabolism and response, thermal sources and sinks, passive building responses to sources and sinks, tuning the building to the environment, optimizing insulation & thermal mass for comfort) contextual aspects (including microclimate and siting, temperatures, humidity, wind, radiation and comfort parameters passive components (including building envelope, passive solar terminology, orientation, apertures and glazing, thermal storage, thermal control and materials design tools (including sun path diagrams, sun peg diagrams, air flow relationships, thermal modelling and life cycle design specific functions (including passive heating, passive cooling and ventilation, natural lighting, passive water heating, resource collection and integrated design).