Table of Contents

Foreword ix–x

Acknowledgements xi–xii

Definitions xiii–xiv

1 Introduction 1–34

1.1 Background 4

1.2 Scarcity of resource 9

1.3 Waste and obsolescence 11

1.4 Permanence and repair 14

1.5 Material efficiency 18

1.6 Embodied energy and carbon 20

1.7 The circular economy 22

1.8 Reuse V Recycling 26

1.9 Summary 29

References 30

2 Concepts Supporting Reuse 35–64

2.1 History of building component reuse 37

2.2 Barriers to reuse 43

2.3 Urban metabolism and resource flows 45

2.4 Urban mining 47

2.5 Upcycling – cradle to cradle 48

2.6 Salvageability and design for deconstruction (DfD) 50

2.7 Information – materials passports 55

2.8 Component redesign – design for reassembly and secondary use 57

2.9 Typologies of material reuse 59

References 61

3 Case Studies 65–188

3.1 Adaptive reuse with component reuse 66

3.1.1 Alliander – nothing is new 66

3.1.2 Posner Center for International Development – the horsebarn 74

3.1.3 Energy Resource Center (ERC) – A learning hub 81

3.1.4 Hughes Warehouse – building community 87

3.1.5 Roy Stibbs Elementary School – A building as a material bank 93

3.1.6 Hindmarsh Shire council corporate offices – old anchors new 97

3.2 Reusing what is available at the site 103

3.2.1 Ford Calumet Environmental Center – ‘form follows availability’ 103

3.2.2 Hill End Eco‐House 108

3.2.3 Tysons Living Learning Centre 114

3.2.4 Parkwood Residences – reuse of an old steel frame 121

3.3 Reusing construction materials from elsewhere 127

3.3.1 Headquarters of the European Council and Council of the European Union 127

3.3.2 La Cuisine, Winnipeg Folk Festival 134

3.3.3 Pointe Valaine Community Centre 142

3.3.4 Oasis Children’s Venture 148

3.3.5 The Old Oak Dojo 154

3.4 Secondary use of non‐construction materials 161

3.4.1 Pocono Environmental Education Center – tyre wall 161

3.4.2 Big Dig House – from highway to housing 167

3.4.3 Kaap Skil, Maritime and Beachcombers Museum 175

3.4.4 Waste House – UK’s first permanent building made from rubbish 181

References 187

4 Materials Investigations 189–206

4.1 Nordic Built Component Reuse 189

4.2 Storywood 196

4.3 Reuse of structural steel 199

4.4 Rebrick project 203

References 206

5 Practitioners 207–248

5.1 ROTOR 207

5.2 Milestone Project Management 218

5.3 Lendager Group 227

5.4 Superuse Studios 237

6 Implications for Design 249–276

6.1 Design process characteristics 250

6.2 Performance issues 259

6.3 Understanding sources and opportunities 266

6.4 Decision process 273

6.5 Conclusion 273

References 274

Bibliography277– 278

Index279– 280

About the Author

MARK GORGOLEWSKI, B.Sc., M.Sc., Ph.D., DIP ARCH, LEED AP. is a Professor and Chair of the Department of Architectural Science, Ryerson University, Toronto, Ontario, Canada. Dr. Gorgolewski is a registered architect with many years of experience as an educator and environmental consultant to the construction industry. He is a past director of the Canada Green Building Council (CaGBC) past chair of the Association of Environment Conscious Building and is a LEED Accredited Professional. He has published extensively on issues of sustainable design.