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Visually enriched with over 250 photographs and drawings, Bioclimatic Double-Skin Façades is an essential reference guide for understanding the types and functions of double-skin façades. Author Mary Ben Bonham examines the history and continuing potential of double-skin architecture, informing on the variety of approaches possible and advising a rigorous integrated design process leading to application. Featuring a wide selection of architectural examples, the book will be of interest to professionals and students within the fields of architecture, engineering, and construction. Characterized by a buffer-like air space between two glazed building skins, double-skin windows and façades aim to improve building comfort and energy performance. Double skins introduce complexity and initial costs, yet significant buildings in locations around the globe continue to select this approach. In addition to exploring motivations, benefits, and cautions for designing with double skins, the book provides a primer on fundamental façade design concepts and strategies for control of thermal, luminous, and acoustic environments. Chapters also address alternative types of high-performance façades and implications for each phase of façade design and construction. Bioclimatic Double-Skin Façades promotes bioclimatic design that is inspired by nature, measured in performance, and uniquely adapted to climate and place. In-depth case studies illustrate how double-skin façades have been adapted to a range of climates and cultural settings: Marseille Library and Grenoble Courthouse in France, Cambridge Public Library in Massachusetts, Manitoba Hydro Place in Canada, and the Pearl River Tower in China.
Practical information on designing sustainable, energy-efficient building facades As energy and other natural resources are being depleted, it has become clear that technologies and strategies that allow us to maintain our satisfaction with interior environments while consuming less of these resources are major objectives of contemporary facade design. Sustainable Facades focuses on the strategies and approaches for designing sustainable, high-performance building facades, and provides technical guidance for architects and designers. This timely and useful guide presents strategies and technical guidelines for designing environmentally sensitive, energy-efficient facades based on scientific principles. It provides climate-specific approaches for minimizing energy consumption, analyzes the thermal behavior of different facade systems and materials, and illustrates with case studies how these approaches have been implemented on architectural projects. It also discusses emerging facade technologies, materials, and systems. Topics covered in this unique and indispensable guide include: Climate-based design approaches for high-performance facades Characteristics of sustainable facades: energy efficiency, thermal behavior, and moisture resistance Designing for thermal comfort, lighting and glare control, and acoustic quality Emerging technologies in facade design, including smart materials, double-skin facades, and facades as energy generators Case studies on building orientation and facade design, tectonic sun exposure control, external shading elements, and more
This book provides a comprehensive theoretical platform for the use and construction of double skin façade projects. The DSF concept has been used mostly in European buildings; however, its success in other climates should be addressed. Increasing numbers of buildings are featuring double skin façade technology in the US; however, still relatively few have been studied for their performance in operation. This book gives architects a practical guide to analyze and evaluate the actual performance of double skin façade buildings in different climatic contexts. It is important for high-performance buildings to have tools to evaluate a design’s predicted performance to achieve specific sustainable goals. To determine that the application of DSF in different climates will provide better thermal comfort, building simulation tools analyze various thermal comfort parameters through studies of the façade and compare them with the actual building’s performance data. The book takes the reader on an on-site tour of eight DSF buildings around the US. Interviews with the buildings’ architects and engineers, owners, and users offer additional perspectives and insights into the construction and performance of these developments in building design. This will provide architects with a comprehensive understanding of the challenges and opportunities in integrating double skin façades into their projects.
Double-skin facades open up new possibilities for clients and planners seeking creative new designs that are intelligently adapted to environmental conditions. This publication is the first to give a comprehensive treatment of the subject, providing both a theoretical framework for the use of this type of construction and numerous illustrations of practical examples. The book provides an in-depth study not only of issues such as acoustic and thermal insulation, aerophysics and facade construction, but also of the question of economic viability. Numerous illustrations and plans offer clear and precise insights into the construction of this new development in building design. Up to now double-skin facades have been used mainly for large buildings such as the debis headquarters on Potsdamer Platz in Berlin. They can be used, however, with equal success for smaller buildings as a means of reducing the ingress of external noise and improving ventilation.
The external facades of a building are more than a protective mantle, or an intelligent skin regulating temperature and light, they also determine its very appearance. By unusual choices of materials and the use of complex technology, facades have become increasingly significant in recent years. External surfaces are being perceived as an integral part of the building and are therefore being designed as such. This volume focuses on the wide-ranging aspects of facade design, from the selection and use of materials to the advanced technical possibilities now open to the architect. A wide array of carefully selected international examples show the theory in the practice. All plans, details, and large scale sections of the facades have been researched with the high degree of competence typical of the editorial staff from the review Detail. Expert authors provide the essential information needed to plan and design facades and elucidate on the latest developments in technology and materials.
Asia has an enormous, largely untapped, opportunity to save money and cut growth in greenhouse gas emissions by taking measures to increase energy efficiency in buildings. Energy efficiency is one of the quickest, cheapest, cleanest ways to address energy and environmental challenges. In China, gaining a megawatt of electricity by building more generating capacity costs four to six times as much as saving a megawatt through greater efficiency--and that ignores the environmental costs of using fossil fuels. Yet China currently is building the equivalent of two 500-megawatt power plants every week. More than half of the world's new construction is taking place in China and India alone. Buildings account for around 30 percent of the world's total energy consumption and a similar percentage of the world's greenhouse gas emissions. The way buildings are designed and constructed today not only will have an impact on their operating costs, but will affect the world's energy consumption patterns and environmental conditions for many years to come.
Sustainable Current Approaches in Architectural Science and Technology, Livre de Lyon
Advanced Building Envelope Components: Comparative Experiments focuses on the latest research in innovative materials, systems and components, also providing a detailed technical explanation on what this breakthrough means for building exteriors and sustainability. Topics include a discussion of transparent envelope components, including intelligent kinetic skins, such as low-e coatings, high vs. low silver content in glass, solar control coatings, such as silver vs. niobium vs. tin, and more. In addition, opaque envelope components are also presented, including opaque dynamic facades, clay lining vs. plasterboard and nano clayed foams. - Includes real case studies that explore, in detail, the behavior of different envelopes - Presents laboratory tests on existing insulation (if any, through samples extracted on-site) to quantify actual performances - Provides the tools and methods for comparing, selecting and testing materials and components for designing effective building envelopes - Covers both transparent and opaque envelope components, as well as opaque dynamic facades
Looking to the future, Intelligent Skins sets out the principles for the design of the intelligent building envelope. It highlights an exciting new approach to the area, where the fabric of the building responds to external changes and internal demands. The prime objective is to control internal environments through a responsive building fabric rather than by energy consuming building services systems. The authors examine the potential for integral intelligence within the fabric of the building and explore the evolution of information technology and smart materials which have allowed a whole new category of design principles to be created.
Facades - they are the first feature of a building to be noticed, they determine its distinctive appearance and are often the subject of controversial debate. This new first edition of the Facade Construction Manual provides a systematic survey of contemporary expertise in the application of new materials and energy- efficient technologies in facade design, and represents an invaluable addition to our series of Construction Manuals. It surveys the facade design requirements made by various types of buildings, as well as the most important materials, from natural stone through to synthetics, and documents a diversity of construction forms for a wide range of building types. Over 100 international case-studies in large-scale, detailed drawings are presented in the comprehensive project section.