Carbon : a field manual for building designers / Matti Kuittinen, Alan Organschi and Andrew Ruff.
By: Kuittinen, Matti [author.]
Contributor(s): Organschi, Alan [author.] | Ruff, Andrew [author.]
Language: English Publisher: Hoboken, New Jersey : Wiley, [2022]Description: 1 online resource : illustrationsContent type: text Media type: computer Carrier type: online resourceISBN: 9781119720768; 9781119720775; 111972077X; 9781119720829; 1119720826; 9781119720867; 1119720869Subject(s): Carbon | Construction industry | Climatic changesGenre/Form: Electronic books.Additional physical formats: Print version:: CarbonDDC classification: 620.1/93 LOC classification: TA455.C3 | K85 2022Online resources: Full text available at Wiley Online Library Click here to view| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
|---|---|---|---|---|---|---|---|
EBOOK
|
COLLEGE LIBRARY | COLLEGE LIBRARY | 620.193 K9578 2022 (Browse shelf) | Available |
Includes bibliographical references and index.
Table of Contents
Preface viii
Chapter 1 Carbon? 2
Our Carbon Challenge 6
Building Elements 6
King Carbon 7
A Global Carbon Budget 9
The Carbon Cycle in Building History 10
Carbon Flows in Building 12
Staunching the Flow 14
Time Management in Carbon Mitigation 17
Re-balancing the Planet: Agency and Opportunity 18
About This Book: An Overview 19
Chapter 2 Measuring Carbon Flows 22
Life Cycle Assessment: What’s in It for Building Designers? 25
The Fundamental Concepts 27
The Process of Life Cycle Assessment 37
The Production Stage 46
The Construction Stage 53
The Use Stage 61
Service Life 66
End-of-Life Stage 74
Results, Interpretation, and Comparison 81
The Streamlined Life Cycle Assessment for Buildings 83
Chapter 3 Case Studies in Decarbonization 86
Notes from the Field 89
How Were the Calculations Per formed? 90
Case Study 1 Common Ground High School 92
Architectural Objectives (by Gray Organschi Architecture) 93
Common Ground High School: Key Figures 100
Materials 100
Site and Ground Works 104
Foundations and Ground Floor 106
Structural Frame 108
Façades and External Decks 110
Roofs 112
Internal Dividers 114
Space Surfaces 116
Internal Fixtures 118
Building System Installations 120
Mitigation Potential from Materials and Systems 130
Energy-Related Emissions 131
Case Study 2: Puukuokka Housing Block 135
Architectural Objectives (by OOPEAA Office for Peripheral Architecture) 137
Puukuokka One: Key Figures 142
Site and Ground Works 146
Foundations and Ground Floor 148
Modular Units 150
Hallway 152
Façades 154
Roofs 156
Building Service Installations 158
Mitigation Potential from Materials and Systems 168
Energy 168
Comparison of the Case Studies 172
Comparison of the Emissions 176
Chapter 4 De-carbonizing Design 180
A Context of Externalities: Pre conditions of the Decarbonized Design Process 185
The Decarbonized Design Process 188
Phases of Decarbonized Building Design 190
The Pre-Design or Project Preparation Phase: Laying the Groundwork for Decarbonized Building Design 190
Selecting a Low-Carbon Site 192
Programming a Low-Carbon Building 195
Anticipating the Lifespan of a Building 196
The Conceptual or Schematic Design Phase 197
The Design Development Phase 201
Material Classes and Their Carbon Consequences 203
The Decarbonized Building Assembly 208
The Later Design Phases: Contract Documentation, Bidding and Negotiation, and Construction Administration 212
Principles of Decarbonized Design 213
Understanding Design Agency: Shifting Roles and Responsibilities 218
Chapter 5 Re-Forming the Anthropocene 220
Beyond Sustainable 223
Thinking Outside the Building’s Life Cycle 224
Re-forming the Anthropocene 231
The Anthropocene Re-formed 240
Acknowledgments 243
Glossary 244
References 248
Index 252
"The rapid increase in global carbon emissions over the past century has created a climate crisis that threatens to disrupt the world's cultural, economic, and social fabric. The building sector is responsible for well over half of the world's extraction and consumption of carbon-based material and hydrocarbon energy. If the current design and construction approach remains unchecked, and as the world's population growth continues to accelerate, the building sector's demand for raw material and energy for new construction will continue to exacerbate the atmospheric greenhouse gas concentrations."-- Provided by publisher.
About the Author
Matti Kuittinen is an architect and professor of resource-efficient construction at Aalto University, Finland. As a policymaker, he has been developing whole life carbon assessment methods in Finland and the EU.
Alan Organschi is a design principal and a partner at Gray Organschi Architecture, in New Haven, CT and a senior member of the design and technology faculty of the Yale School of Architecture. He currently serves as the Director of the Innovation Lab of the global initiative Bauhaus Earth in Berlin, Germany.
Andrew Ruff (New Haven, CT) is the Research Coordinator of the Timber City Research Initiative, the Design Director at Gray Organschi Architecture, and a Visiting Critic at the Yale School of Architecture. He previously held appointments as a Visiting Assistant Professor at Wesleyan University and a Lecturer at the Georgia Institute of Technology, and served as part of the guest faculty at the Roger Williams School of Architecture, Art, and Historic Preservation, where he led design research into the applications of mass timber assemblies in mid-rise building applications. In addition to his professional degree in Architecture, he holds a Master of Environmental Design from the Yale School of Architecture and has lectured and published on the subject of mass timber buildings in the global carbon economy.
There are no comments for this item.