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El. knyga: Materials for a Healthy, Ecological and Sustainable Built Environment: Principles for Evaluation

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(Senior Lecturer in Sustainability in Design, Wellington School of Architecture, Te Herenga Waka Victoria University of Wellington, Aotearoa New Zealand), (Schoo), (School of Architecture, Victoria University of Wellington, New Zealand)
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This book provides a comprehensive overview of the issues associated with the selection of materials for sustainable construction and proposes a holistic and integrated approach.

It evaluates the issues involved in choosing materials from an ecosystem services perspective, through the process of the design stage to the impact of materials on the health of building users. The core aim of the book is that none of these aspects should be considered in isolation, but rather that a full evaluation of the appropriateness of a material for sustainable construction requires engagement at all these levels.

The three main sections of the book discuss building materials in relation to ecosystem services, the implications of materials choice at the design stage, and impact of materials on building users and their health. The final section then focuses on specific case studies illustrating these principles. The historical case studies illustrate the richness of solutions that existed before the rise of contemporary construction and that are consistent with a sustainable approach to creating built environments. These are followed by modern examples which apply some, if not all, of the principles discussed in the first three sections of the book.

  • Provides a thorough understanding of ecosystem services based on ecology research and shows how this can be linked more explicitly and practically with built environment design and used in a quantifiable way
  • Proposes principles for the evaluation and appropriateness of building and furnishing materials for sustainable construction
  • Case studies illustrating principles that are consistent with a sustainable approach to creating built environments

Recenzijos

"A specific technical background is not necessary to understand the content. This book focuses on the ontological considerations of building materials and is relevant for all those interested in sustainable building, including professionals in the construction industry." --MRS Bulletin

Daugiau informacijos

Provides a comprehensive overview of the issues associated with the selection of materials for sustainable construction, proposing a holistic and integrated approach
List of contributors
xi
Preface: A call for ontological consideration of building materials xiii
Emina Kristina Petrovic
Acknowledgments xvii
Introduction xix
Maibritt Pedersen Zari
Brenda Vale
Emina Kristina Petrovic
Part I Selecting Building Materials for Reduced Impacts on Ecosystem Services: Ecosystem Services Analysis
1(64)
1 Utilizing relationships between ecosystem services, built environments, and building materials
3(26)
Maibritt Pedersen Zari
1.1 Introduction: reducing the environmental impact of built environments
3(1)
1.2 Ecosystem services: definitions and boundaries
4(4)
1.3 Relationships between ecosystem services
8(3)
1.4 Defining ecosystem services for a built environment context: key places for change
11(6)
1.5 Descriptions of ecosystem services most applicable to a built environment context
17(4)
1.6 Conclusion: ecosystem services and the built environment. Moving towards a more positive relationship
21(8)
References
22(7)
2 Ecosystem services analysis: incorporating an understanding of ecosystem services into built environment design and materials selection
29(36)
Maibritt Pedersen Zari
2.1 Introduction: a wider perspective on sustainability and the built environment
29(1)
2.2 Ecosystem services analysis and whole building or urban design
30(1)
2.3 Ecosystem services analysis and materials selection
31(9)
2.4 Benefits and difficulties of applying the ecosystem services concept to built environment design and materials selection
40(1)
2.5 Potential impacts on ecosystem services of common building materials
41(17)
2.6 Conclusion: Materials selection and ecosystem services. A shift in thinking
58(7)
References
59(6)
Part II Choosing Sustainable Materials
65(72)
3 Building materials
67(46)
Brenda Vale
3.1 Introduction
67(1)
3.2 Materials that are grown
68(9)
3.3 Materials that are extracted
77(7)
3.4 Materials that are made
84(21)
3.5 Conclusion
105(8)
References
105(8)
4 Materials and buildings
113(24)
Brenda Vale
4.1 Choosing materials
113(6)
4.2 Designing to minimize building lifecycle impact
119(13)
4.3 Caveat: building users
132(1)
4.4 Choosing healthy and low-impact materials
133(4)
References
133(4)
Part III Indoor Toxicity from Building Materials
137(100)
5 A lack of recognition of potential health risks from building materials
139(16)
Emina Kristina Petrovic
5.1 Introduction
139(1)
5.2 The problem
140(8)
5.3 Beyond the challenges: three stages of recognition of health risks
148(3)
5.4 Conclusion
151(4)
References
152(3)
6 Persisting issues with the most recognized building material health risks: lead and asbestos
155(20)
Emina Kristina Petrovic
6.1 Introduction
155(1)
6.2 Issues with lead
155(9)
6.3 Issues with asbestos
164(5)
6.4 Conclusion
169(6)
References
171(4)
7 How substances get regulated against in the building industry: formaldehyde, phthalate plasticizers in polyvinyl chloride/vinyl
175(16)
Emina Kristina Petrovic
7.1 Introduction
175(1)
7.2 Overview of volatile organic compounds
175(3)
7.3 Issues with formaldehyde
178(4)
7.4 Issues with vinyl, polyvinyl chloride, and plasticizers
182(4)
7.5 Conclusion
186(5)
References
187(4)
8 New and less recognized risks with building materials: volatile organic compounds, replacement chemicals, and nanoparticles
191(12)
Emina Kristina Petrovic
8.1 Introduction
191(1)
8.2 On-going suspicion---volatile organic compounds from carpets
191(6)
8.3 Replacement and new substances
197(2)
8.4 Discussion on Stage 1 and conclusion
199(4)
References
200(3)
9 An overview of health hazards from materials: Application of principles
203(34)
Emina Kristina Petrovic
9.1 Introduction
203(1)
9.2 Key commonalities in polymer sources
204(6)
9.3 Plastics---more solid polymers
210(9)
9.4 Disposal of plastics
219(1)
9.5 Film-forming finishes: paints, varnishes, and oils
219(4)
9.6 Biopolymers
223(2)
9.7 Radon
225(2)
9.8 Titanium dioxide (TiO2)
227(1)
9.9 Linoleum---a natural composite
228(1)
9.10 Timber
229(2)
9.11 Conclusion
231(6)
References
232(5)
Part IV Case Studies
237(136)
10 Sustainability and the material aspect of traditional residential buildings in Serbia
239(16)
Ana Radivojevic
Mirjana Roter-Blagojevic
Ljiljana Dukanovic
10.1 Historical, cultural, and social context
239(1)
10.2 Basic types of traditional rural and urban residential buildings
240(9)
10.3 Environmental features of building materials and structures
249(3)
10.4 Conclusion
252(3)
Acknowledgments
253(1)
References
253(2)
11 Palm thatched building in Mexico
255(16)
Jaime Rios-Calleja
11.1 Introduction
255(6)
11.2 Palm thatch building assessment
261(7)
11.3 Conclusion
268(3)
References
268(3)
12 The effect of global trade on the New Zealand house
271(16)
Nigel Isaacs
12.1 Introduction
271(1)
12.2 Background
271(1)
12.3 Material selection and data sources
272(10)
12.4 Discussion
282(2)
12.5 Conclusion
284(3)
References
284(3)
13 Thurgoona Campus: A living laboratory of healthy and sustainable materials
287(22)
Marci Webster-Mannison
13.1 Context
287(1)
13.2 The site
288(3)
13.3 Buildings
291(6)
13.4 Materials: evolving the detail
297(10)
13.5 Conclusion: the issues are complex
307(2)
References
307(2)
14 The Hockerton Housing Project: A case study of the use of concrete
309(12)
Robert Vale
14.1 Thermal mass in zero-heating houses
309(2)
14.2 Thermal mass in the two projects
311(3)
14.3 Thermal performance of the projects compared
314(4)
14.4 Other considerations
318(1)
14.5 Conclusions
318(3)
References
319(2)
15 Lambie House: deconstruction and eco-refurbishment
321(10)
John Storey
15.1 Introduction: a domestic eco-refurbishment
321(1)
15.2 The builder and the clients: commitment to resource savings
322(1)
15.3 Reusing windows and doors
322(1)
15.4 Reusing the roof
323(2)
15.5 Recovering existing fittings and fixtures
325(1)
15.6 Materials: minimizing waste
325(2)
15.7 Conclusions: intentions, attitudes, and realities
327(4)
16 Meridian: New Zealand's first Green Star-rated building
331(14)
Guy Marriage
16.1 Introduction to New Zealand built environment sustainability
331(2)
16.2 Project site and design brief
333(1)
16.3 Materials selection
334(7)
16.4 Waste minimization
341(1)
16.5 Conclusion
341(4)
References
342(3)
17 Sustainable and healthy building practice in Germany
345(12)
Rainer Hirth
17.1 Introduction
345(1)
17.2 Sustainable and healthy construction in Germany
346(2)
17.3 Example 1: A semidetached healthy residence
348(4)
17.4 Example 2: Energy-efficient water residence
352(2)
17.5 Conclusion
354(3)
References
355(2)
18 The Bullitt Center: A "Living Building"
357(16)
Adele Leah
18.1 Introduction
357(1)
18.2 Living Building Certification
357(3)
18.3 Materials "Petal"
360(2)
18.4 Forest Stewardship Council Project Certification
362(1)
18.5 Material selection
363(5)
18.6 Product transparency
368(1)
18.7 Conclusion
369(4)
References
369(4)
Conclusion 373(2)
Emina Kristina Petrovic
Brenda Vale
Maibritt Pedersen Zari
Index 375
Dr Emina Kristina Petrovi is recognised for her expertise on toxicity, sustainability, and healthiness of building materials. Petrovi emphasises the importance of informed building material selection for both the built and natural environment, calling for a more detailed consideration of building materials for the totality of their impacts, from ecosystem health to ethics of production. By asserting the relevance of the interrelatedness of these issues, Petrovi is providing a critical leadership in a transition to less impactful construction. Because knowledge itself is not enough for the needed change, Petrovi has also contributed a new sustainable transition framework, and examines aspects of behaviour change in building industry.

Brenda Vale is an architect and Professorial Research Fellow, at the School of Architecture, Victoria University of Wellington, New Zealand. Working with Robert Vale, she wrote her first book on sustainable design in 1975. Following their award winning and energy saving commercial buildings in the UK for which they were both the architects, by 1998 they had designed and built the award winning first autonomous house and the first zero-emissions settlement there. After coming to New Zealand in 1996 they converted an existing house to be zero energy. They also developed the Australian Governments National Australian Built Environment Rating System (NABERS), now in operation. Their current research is in the field of ecological footprints and behaviour, which has led to two published books (Time to eat the dog? the real guide to sustainable living and Living within a fair share ecological footprint). Maibritt Pedersen Zari is a Senior Lecturer in Sustainable Architecture at the School of Architecture, Victoria University of Wellington, New Zealand. She teaches both undergraduate and graduate programmes in Architecture, Interior Architecture, Building Science and Sustainable Engineering. Her areas of expertise are biomimicry and regenerative design and the practical intersection of ecology and ecosystem services research within urban and architectural design. She has published extensively in these areas as well as on the relationship between climate change, biodiversity loss and the built environment and responses to these issues. Her publications seek to redefine sustainable architecture and urban design through mimicking ecosystems, changing the goals from sustainable to regenerative development, and integrating complex social wellbeing factors into sustainable architectural design.
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