Architecture in a Climate of Change: A Guide to Sustainable Design
Focusing on the recently introduced compulsory course element on sustainability in architecture, the book outlines all of the arguments and provides a comprehensive source of information. The author's insider knowledge of the curriculum structure provides you with an invaluable companion to the new section of the course work. An outline seminar is included allowing the student to relate the theories of sustainability to the practice of study. The professional will also benefit from its focus on the practical translation of sustainable theory.
He calls for changes in the way we build. For change to be widely accepted there have to be convincing reasons why long established practices should be replaced. In the first part of the book he sets out those reasons by arguing that there is convincing evidence that climate changes now under way are primarily due to human activity in releasing carbon dioxide into the atmosphere. Buildings are particularly implicated in this process and so it is appropriate that the design and construction process should be a prime target in the war against catastrophic climate change. The book is designed to promote a creative partnership between the professions to produce buildings which achieve optimum conditions for their inhabitants whilst making minimum demands on fossil based energy.
Peter Smith has written extensively on the subject and is well known in the field. He is responsible for introducing the compulsory sustainable element of the course in the UK. He is Chairman of the RIBA Environment and Energy Committee, the RIBA Sustainable Features Committee and Vice Chairman of the Sustainable Development Committee.
*Learn about the principles of sustainability and the future of its technology.
*Gain a valuable insight into the relationship between the physical and cultural context of architecture.
*Benefit from the inside knowledge and expertise of the author.
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1 Climate Change People or Nature?
3 Renewable Technologies Energy from Water
4 Renewable Technologies Solar Biomass and Miscellaneous
5 Low Energy Techniques for Housing
7 Domestic Energy
8 Advanced and UltraLowEnergy Houses
13 Lighting Designing for Daylight
14 Lighting In the Context of Human Frailty
15 Cautionary Notes
16 Beacon Buildings
17 an American Perspective
18 Life Cycle Assessment and Recycling
19 Integrated District Environmental Design
20 Emergent Technologies and Future Prospects
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absorb achieve active solar Aerogels air conditioning air ﬂow architects atmosphere atrium beneﬁts Bill Dunster building carbon cavity Centre CO2 emissions construction cost create daylight double glazing ducts effect electricity embodied energy energy efﬁciency environmental evaporative cooling example external extract facade factor ﬁbre Figure ﬁnish ﬁrst ﬂoor ﬂywheel fossil fuels fuel cell glass global warming greenhouse grid heat gain hydrogen increase inﬂuence installed insulation IPCC materials mechanical million natural light natural ventilation occupants ofﬁce operation passive solar plant pollution Portcullis House potential problem produce proﬁle PV cells recycled reduce reﬂected renewable energy rise roof Scientist sea level signiﬁcant solar cells solar gain solar heat solar radiation solar shading space heating speciﬁed stack effect storage sufﬁcient superinsulation surface switch temperature thermal mass tidal timber tion tonnes Trombe wall turbine U-value wall wind