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Departing from the simple question Why do we heat and cool buildings with air?, this book focuses on the technique of thermally active surfaces. This technique uses water in building surfaces to heat and cool bodies - a method that is at once more efficient, comfortable, and healthy. This technique thus imbues the fabric of the building with a more poignant role: its structure is also its primary heating and cooling system. In doing so, this approach triggers a cascading set of possibilities for how well buildings are built, how well they perform, and how long they will last: pointing the way toward multiple forms of sustainability. The first section of the book contrasts the parallel histories of thermally active surfaces and air conditioning. These histories explain the material, social, marketing, and technical unfolding of building technology in the twentieth century as a means to explain why we build the way we do and why that will change in the new century. The next section of the book covers the physiological and thermodynamic basis of thermally active surfaces. This section is designed for engineers and architects to grasp the logic and advantages of this technique. This section also includes a chapter on the de-fragmentation of buildings and design practice that is inherent in building with thermally active surfaces. The final section covers a series of contemporary case studies that demonstrate the efficacy of this technique. The project list currently includes Kunsthaus in Bregenz by Peter Zumthor, Zollverein School of Management in Essen, Germany by SANAA, and Linked Hybrid in Beijing by Steven Holl, amongst others.
What is the best way to consider energy in buildings? For over a century, the building industry has largely focused on ideas of insulation and isolation for its energetic practices. A growing movement of designers claim that other concepts and practices are required for the non-isolated energy systems of architecture. This book describes the history, theory and facts of the mainstream isolation technologies and the emerging alternative design approaches. It is a book on the scientific, material, and design history of building isolation; but more importantly, it is a book on isolated and non-isolated perspectives on energy in architecture. Written by a registered practicing architect with detailed technical knowledge, who is at the same time a researcher and experienced teacher, the aim is to understand the different scientific, architectural and cultural approaches to energy and to promote a non-isolated perspective: a thermodynamically accurate, ecologically powerful, culturally relevant, and architecturally ambitious perspective on energy in architecture.
The laws of thermodynamics—and their implications for architecture—have not been fully integrated into architectural design. Architecture and building science too often remain constrained by linear concepts and methodologies regarding energy that occlude significant quantities and qualities of energy. The Hierarchy of Energy in Architecture addresses this situation by providing a clear overview of what energy is and what architects can do with it. Building on the emergy method pioneered by systems ecologist Howard T. Odum, the authors situate the energy practices of architecture within the hierarchies of energy and the thermodynamics of the large, non-equilibrium, non-linear energy systems that drive buildings, cities, the planet and universe. Part of the PocketArchitecture series, the book is divided into a fundamentals section, which introduces key topics and the emergy methodology, and an applications section, which features case studies applying emergy to various architectural systems. The book provides a concise but rigorous exposure to the system boundaries of the energy systems related to buildings and as such will appeal to professional architects and architecture students.
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.
Beginning with material, this book revolves around physical material making and design decisions that emerge from material interaction. Combining essays from both practice and academia, this book presents some of the most significant projects and thoughts on materiality from the last decade. Beautifully illustrated with a great deal of technical information throughout, it shows work, technical technique and process, and positions it within a broader theoretical intention. By assembling a range of voices, here is a multifaceted portrait of material design today. Students and design professionals alike should find in this book an essential resource for understanding this increasingly important aspect of design.
The author takes a comprehensive look at projects that exemplify approaches to this field. From museums to residences, from office buildings to universities and yoga centers, this book showcases 28 examples of integrated design that cut across building types, budgets, climates, and locales.
Blaine Brownell s best-selling Transmaterial series has introduced designers to hundreds of emergent materials that have the potential to transform our built environment. In our new Architecture Brief, Material Strategies, Brownell shows architects how creative applications of these materials achieve such transformations. Chapters based on fundamental material categories examine historical precedents, current opportunities, and future environmental challenges. Case studies featuring detailed illustrations showcase pioneering buildings from today s most forward-thinking architectural firms.
A superb visual reference to the principles of architecture Now including interactive CD-ROM! For more than thirty years, the beautifully illustrated Architecture: Form, Space, and Order has been the classic introduction to the basic vocabulary of architectural design. The updated Third Edition features expanded sections on circulation, light, views, and site context, along with new considerations of environmental factors, building codes, and contemporary examples of form, space, and order. This classic visual reference helps both students and practicing architects understand the basic vocabulary of architectural design by examining how form and space are ordered in the built environment.? Using his trademark meticulous drawing, Professor Ching shows the relationship between fundamental elements of architecture through the ages and across cultural boundaries. By looking at these seminal ideas, Architecture: Form, Space, and Order encourages the reader to look critically at the built environment and promotes a more evocative understanding of architecture. In addition to updates to content and many of the illustrations, this new edition includes a companion CD-ROM that brings the book's architectural concepts to life through three-dimensional models and animations created by Professor Ching.
This book brings together new and emerging perspectives on sustainability. Combining a series of well know authors in contemporary philosophy with established practitioners of sustainable design, it develops a coherent theoretical framework for how a philosophy of sustainability might engage with the growing practice of sustainable design.
This book offers a wealth of interdisciplinary approaches to urbanization strategies in architecture centered on growing concerns about the future of cities and their impacts on essential elements of architectural optimization, livability, energy consumption and sustainability. It portrays the urban condition in architectural terms, as well as the living condition in human terms, both of which can be optimized by mathematical modeling as well as mathematical calculation and assessment. Special features include: • new research on the construction of future cities and smart cities • discussions of sustainability and new technologies designed to advance ideas to future city developments Graduate students and researchers in architecture, engineering, mathematical modeling, and building physics will be engaged by the contributions written by eminent international experts from a variety of disciplines including architecture, engineering, modeling, optimization, and related fields.