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Elements of Sustainable Architecture [Pehme köide]

, (University of Liverpool, UK)
  • Formaat: Paperback / softback, 226 pages, kõrgus x laius: 276x219 mm, kaal: 740 g, 33 Tables, color; 211 Line drawings, color; 383 Halftones, color; 594 Illustrations, color
  • Ilmumisaeg: 23-Dec-2019
  • Kirjastus: Routledge
  • ISBN-10: 081536783X
  • ISBN-13: 9780815367833
Teised raamatud teemal:
Elements of Sustainable ArchitectureSuurem pilt
  • Formaat: Paperback / softback, 226 pages, kõrgus x laius: 276x219 mm, kaal: 740 g, 33 Tables, color; 211 Line drawings, color; 383 Halftones, color; 594 Illustrations, color
  • Ilmumisaeg: 23-Dec-2019
  • Kirjastus: Routledge
  • ISBN-10: 081536783X
  • ISBN-13: 9780815367833
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780815367833.html
Märksõnad:
For sustainable architecture to become a reality, the way we design buildings needs to change. Many architects are concerned that sustainable technologies may interfere with a buildings aesthetic appearance, and so these are often added on once the design process is complete.

Elements of Sustainable Architecture solves this dilemma by helping students to develop the design skills they need to create sustainable buildings ensuring that ecological considerations are applied throughout the design process. Restoring the primacy of aesthetics and creativity to sustainable design, the book focuses on strategies that have the greatest impact on building design. It also shows the influence of sustainability considerations on choices about aspects such as composition, form, space, tectonics, materials, colour, textures, proportion and position.

Specifically designed to offer a new way of understanding architecture, the book:











introduces students to the basic principles and methods of sustainable design;





features current examples and inspiring case studies to support learning step by step;





presents information in a visually appealing, intuitive, easy-to-understand way;





includes over 500 high-quality colour diagrams, drawings, sketches and photographs.

A clear, visual introduction to creating aesthetically beautiful and sustainable buildings, this is essential reading for students in sustainable architecture courses.

Arvustused

"Elements of Sustainable Architecture is essential reading for students and professionals practising architecture in the 21st century. It spans a wide range of interrelated areas, from landscape to urban management, from air quality to materials. Importantly, too, the ideas and approaches, and their feasibility, are illustrated through examples as well as a series of inspiring case studies. Its practical, comprehensive approach makes this book a major and very welcome contribution to the field."

Stuart Walker, Professor of Design for Sustainability, Lancaster University

Author of Design Realities: creativity, nature and the human spirit

"Elements of Sustainable Architecture provides a fascinating and richly illustrated compendium of 49 elements - principles and concepts for sustainable design - to inspire students of architecture. Original diagrams are used to explore the challenges and opportunities presented by themes ranging from climate and urban landscape, to building materials. The case studies included throughout the book, and especially in the final section, provide unique insights, information and images of exemplars from across the globe."

Koen Steemers, Professor of Sustainable Design, University of Cambridge

"This book is a compelling visual compendium of design concepts allied with practical elements to use in creating sustainable built environments at all scales. It translates positive ecological cycles into design operations intrinsically related to culture, form and aesthetics aspects that are often neglected in other environmental handbooks. It is a joy to read, and it should take pride of place in every design studio."

Professor Fionn Stevenson, Chair in Sustainable Design, The University of Sheffield, School of Architecture

Acknowledgements viii
Introduction 1(6)
Territorial and urban elements
7(50)
Introduction to territorial and urban elements
9(1)
ID Designing with climate and terrain
10(8)
DO Positioning in the territory: climate and topography
12(2)
DO City limits
14(2)
DO Landscape: protection, design
16(2)
ID Designing with constructed elements
18(8)
DO Building height
20(2)
DO Typologies and buildable depths
22(2)
DO Use distribution
24(2)
ID Designing with voids
26(8)
DO Urban green spaces
28(2)
DO Urban green spaces design
30(2)
DO Street design
32(2)
ID Designing with the human factor
34(8)
DO Population: density and heterogeneity
36(2)
DO Transport
38(2)
DO Noise
40(2)
ID Designing with networks
42(6)
DO Water supply
44(2)
DO Energy supply
46(2)
ID Designing through urban management
48(9)
DO Urban planning agents
50(2)
DO New urban development
52(2)
DO Renovation of an urban area
54(3)
Natural elements
57(60)
Introduction to natural elements
59(1)
ID Designing with earth
60(10)
DO Earth sheltering
64(2)
DO Earth architecture
66(2)
DO Ground and water source heat pumps
68(2)
ID Designing with living elements
70(10)
DO Energy-efficient landscape design
72(2)
DO Green roofs
74(2)
DO Green walls
76(2)
DO Photobioreactors and aquaponics
78(2)
ID Designing with air
80(10)
DO Passive ventilation design
82(4)
DO Air quality
86(2)
DO Wind turbines
88(2)
ID Designing with sunlight
90(14)
DO Daylighting design
92(4)
DO Passive solar heating
96(2)
DO Solar control: daylighting technologies
98(4)
DO Building integrated photovoltaics
102(2)
ID Designing with water
104(13)
DO Trombe water walls and roof ponds
106(2)
DO Rainwater harvesting
108(2)
DO Fog harvesting
110(2)
DO Water reusing/recycling
112(2)
DO Passive and active evaporative cooling
114(3)
Material elements
117(44)
Introduction to material elements
119(1)
ID Designing with natural fibres
120(8)
DO Wood
122(2)
DO Bamboo
124(2)
DO Hemp
126(2)
ID Designing with products derived from wood
128(6)
DO Cork
130(2)
DO Paper
132(2)
ID Designing with metals
134(6)
DO Steel
136(2)
DO Aluminium
138(2)
ID Designing with stone materials
140(8)
DO Stone
142(2)
DO Concrete
144(2)
DO Ceramics
146(2)
ID Designing with translucent materials
148(6)
DO Glass
150(2)
DO ETFE
152(2)
ID Designing with textile materials
154(7)
DO Textile fabrics
156(2)
DO Smart textiles
158(3)
Case studies
161(38)
CS Case Study 01 City Council House 2
162(5)
CS Case Study 02 METI Handmade School
167(4)
CS Case Study 03 Tara House
171(4)
CS Case Study 04 Umwelt Arena
175(4)
CS Case Study 05 Nest We Grow
179(6)
CS Case Study 06 Malmo Ecocity
185(7)
CS Case Study 07 Recovery and transformation of valdemingomez's landfill into Valdemingomez's Forest Park and Waste Management Centre
192(7)
Appendix 199(2)
Further readings and resources by section 201(6)
Figure credits 207(8)
Index 215
Rosa Urbano Gutiérrez is Senior Lecturer at the Liverpool School of Architecture, where she teaches design studio and environmental sciences. Her research interest is sustainable architectural design through the exploration of emergent materials and technologies. She holds a PhD from the Madrid School of Architecture, a master's degree in design from the Harvard Graduate School of Design and has previously worked as a Research Scholar at the Massachusetts Institute of Technology (MIT). Her latest book, Sustainable Retrofits: Post-War Residential Towers in Britain (with Asterios Agkathidis; 2017), is published by Routledge.

Laura de la Plaza Hidalgo is an architect and urban planner specialising in sustainability. Throughout her professional career, she has participated in the design of master plans and the construction of buildings that have obtained certification of sustainability seals such as LEED or AENOR, and has also taught urban planning and sustainable construction at the School of Architecture of the Pontifical University of Salamanca. She holds a master's degree in urban planning from Carlos III University and another in sustainable cities from the Technical University of Madrid.