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Architecture and Systems Ecology

William W. Braham
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Architectural Narratives
architecture and energy
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Building Envelope
building performance
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Chautauqua County
Commercial Buildings
cradle to cradle
ecological accounting
ecological design
Ellis House
Energetic Potential
Energy Density
Energy Efficiency
Energy Source
Energy Systems Language
Environmental Building Design
environmental performance metrics
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ER GY
H. T. Odum
Heat Sink
Industrial Evolution
Maison Citrohan
Occupancy Sensors
Power Series Distribution
Rank Size Distribution
renewable resource management
Selforganizing Systems
Survivalist Retreat
sustainable construction methods
systems thinking
thermodynamic analysis in architecture
Thermodynamic Diagram
Thermodynamic Principles
Upstream Costs
urban metabolism
USGBC

Product details

  • ISBN 9781138846050
  • Weight: 816g
  • Dimensions: 174 x 246mm
  • Publication Date: 19 Aug 2015
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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Description

Modern buildings are both wasteful machines that can be made more efficient and instruments of the massive, metropolitan system engendered by the power of high-quality fuels. A comprehensive method of environmental design must reconcile the techniques of efficient building design with the radical urban and economic reorganization that we face. Over the coming century, we will be challenged to return to the renewable resource base of the eighteenth-century city with the knowledge, technologies, and expectations of the twenty-first-century metropolis.

This book explores the architectural implications of systems ecology, which extends the principles of thermodynamics from the nineteenth-century focus on more efficient machinery to the contemporary concern with the resilient self-organization of ecosystems.

Written with enough technical material to explain the methods, it does not include in-text equations or calculations, relying instead on the energy system diagrams to convey the argument. Architecture and Systems Ecology has minimal technical jargon and an emphasis on intelligible design conclusions, making it suitable for architecture students and professionals who are engaged with the fundamental issues faced by sustainable design.

The energy systems language provides a holistic context for the many kinds of performance already evaluated in architecture—from energy use to material selection and even the choice of building style. It establishes the foundation for environmental principles of design that embrace the full complexity of our current situation. Architecture succeeds best when it helps shape, accommodate, and represent new ways of living together.
About William W. Braham

William W. Braham FAIA is a Professor of Architecture at the University of Pennsylvania, where he is Director of the Master of Environmental Building Design. He received an engineering degree from Princeton University and an M. Arch and Ph.D. Arch. from the University of Pennsylvania. Braham is the director of the TC Chan Center, a faculty research unit on energy and environment in the built environment. Recent projects include the Sustainability Plan, Carbon Footprint, and Carbon Reduction Action Plan for the university. His publications include Rethinking Technology (2006), Energy and Architecture (2013), and Energy Accounts (2016).

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