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1 The Climate Emergency and the Built Environment |
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1 | (28) |
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1.1 The Climate Emergency |
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1 | (4) |
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1.2 Carbon Emissions and the Built Environment |
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5 | (12) |
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1.2.1 Climate Action in the Built Environment: Towards Net Zero Emissions |
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8 | (5) |
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1.2.2 Green Building Council of Australia |
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13 | (1) |
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1.2.3 Architecture 2030 Challenge |
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13 | (1) |
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1.2.4 RIBA 2030 Challenge |
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13 | (1) |
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14 | (1) |
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15 | (1) |
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1.2.7 GlobalABC Regional Roadmap for Buildings and Construction in Africa |
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15 | (1) |
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1.2.8 IEA Roadmap for Energy-Efficient Buildings and Construction in ASEAN |
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16 | (1) |
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1.3 Challenges and Gaps in Achieving Net Zero Carbon in the Built Environment |
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17 | (5) |
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1.3.1 Increasing Global Construction |
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17 | (1) |
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1.3.2 Urban Heating and the Growing Demand for Cooling |
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18 | (1) |
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1.3.3 Lack of Building Codes, Policy and Regulation |
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19 | (1) |
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1.3.4 Upgrading and Retrofitting Existing Buildings |
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20 | (1) |
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1.3.5 Education and Training |
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21 | (1) |
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1.4 Summary and Upcoming
Chapters |
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22 | (7) |
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23 | (6) |
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2 Operational Carbon in the Built Environment: Measurements, Benchmarks and Pathways to Net Zero |
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29 | (50) |
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2.1 Measuring Operational Energy and Carbon |
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29 | (9) |
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2.1.1 Benchmarking and Normalisation Factors |
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29 | (4) |
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2.1.2 Building Performance Ratings |
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33 | (1) |
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2.1.3 Building Performance Assessment Tools |
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34 | (3) |
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2.1.4 Post-occupancy Evaluation |
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37 | (1) |
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2.2 Factors Impacting Operational Carbon Benchmarks |
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38 | (4) |
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2.2.1 Overview of Factors |
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38 | (1) |
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2.2.2 Overview of Factors: Australian Context |
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39 | (3) |
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2.3 Comparison of Published Benchmarks and Targets |
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42 | (18) |
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2.3.1 The Current State of Operational Energy and Carbon in Australia |
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42 | (13) |
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55 | (2) |
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57 | (3) |
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2.4 Strategies to Reduce Operational Carbon |
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60 | (12) |
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2.4.1 Energy-Efficient Design: New Build and Retrofit |
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60 | (9) |
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69 | (3) |
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2.5 Towards Net Zero Operational Carbon |
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72 | (7) |
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74 | (5) |
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3 Embodied Carbon in the Built Environment: Measurements, Benchmarks and Pathways to Net Zero |
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79 | (40) |
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3.1 The History of Measuring Embodied Carbon |
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79 | (2) |
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3.2 Factors Impacting Embodied Carbon Benchmarks |
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81 | (11) |
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3.2.1 Functional Unit Area Definition: Estimated Impact on Embodied Carbon Measurement of 12-30% |
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84 | (1) |
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3.2.2 Building Classification: Estimated Impact on Embodied Carbon Measurement of up to 100% |
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84 | (1) |
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3.2.3 Methodology for Life Cycle Inventory (LCI) Coefficients: Estimated Impact on Embodied Carbon Measurement of between 2 and 99% |
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85 | (1) |
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3.2.4 Building-Scale Lifecycle Carbon Methodology: Estimated Impact on Embodied Carbon Measurement of up to 77% |
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86 | (2) |
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3.2.5 Completeness or Scope of Items Included: Estimated Impact on Embodied Carbon of up to 50% |
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88 | (1) |
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3.2.6 Geographic Context: Estimated Impact on Embodied Carbon of 30% or More |
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88 | (1) |
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3.2.7 Case Study Example: Clay Brick |
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89 | (3) |
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3.3 Existing Embodied Carbon Benchmarks |
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92 | (11) |
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3.4 Strategies to Reduce Embodied Carbon |
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103 | (5) |
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3.4.1 Design Strategy 1: Building Nothing/Adaptive Reuse |
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103 | (4) |
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3.4.2 Design Strategy 2: Optimise and Dematerialise |
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107 | (1) |
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3.4.3 Design Strategy 3: Smart Design |
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108 | (1) |
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3.4.4 Design Strategy 4: Low Carbon Supply Chain |
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108 | (1) |
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3.5 Net Zero Embodied Carbon |
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108 | (11) |
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113 | (6) |
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4 Delivering a Net Zero Carbon-Built Environment: Synthesis, Measurability, Targets and Reporting |
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119 | (24) |
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4.1 Methods Used to Determine Climate Emergency Targets |
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119 | (8) |
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4.1.1 Methods Used to Determine Operational Carbon Targets |
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119 | (5) |
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4.1.2 Methods Used to Determine Embodied Carbon Targets |
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124 | (3) |
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4.2 Climate Emergency Targets |
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127 | (6) |
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4.2.1 Climate Emergency Targets for Operational Carbon Emissions |
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127 | (2) |
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4.2.2 Climate Emergency Targets for Embodied Carbon Emissions |
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129 | (4) |
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4.3 Net Zero Whole Life Carbon Pathway |
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133 | (10) |
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4.3.1 Comparing and Combining Operational and Embodied Data |
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135 | (2) |
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4.3.2 Implementation and Reporting of the Pathway |
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137 | (3) |
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140 | (3) |
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5 Case studies: Exemplars to Learn From |
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143 | (58) |
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144 | (32) |
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5.1.1 New Buildings--Residential |
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144 | (19) |
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5.1.2 New Buildings--Non-residential |
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163 | (13) |
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176 | (11) |
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176 | (11) |
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5.3 Exemplars in Embodied Carbon Reduction |
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187 | (14) |
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187 | (6) |
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193 | (5) |
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198 | (3) |
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6 Policy Pathways to a Net Zero Carbon-Built Environment |
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201 | (34) |
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6.1 Australia's Zero Carbon Policy |
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201 | (22) |
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6.1.1 Australia's National Targets, Policies and Programs |
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201 | (5) |
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6.1.2 State and Territory Governments' Objectives and Action Plans |
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206 | (4) |
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6.1.3 Local Government Initiatives |
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210 | (2) |
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6.1.4 Mandatory and Voluntary Approaches to Reducing Operational and Embodied Energy Demand and Increasing the Use of Renewable Energy |
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212 | (6) |
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6.1.5 Australian Zero Carbon Policy Nexus |
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218 | (5) |
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6.2 International Policies, Standards and Initiatives |
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223 | (6) |
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6.2.1 International Mandatory and Voluntary Standards and Policies |
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223 | (2) |
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6.2.2 Mandatory Standards for the Embodied Carbon of Buildings |
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225 | (2) |
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6.2.3 Leading Groups and Initiatives Worldwide |
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227 | (2) |
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6.3 Opportunities and Challenges of Existing Zero Carbon Policies |
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229 | (2) |
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6.4 The Evolution of Zero Carbon Policies |
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231 | (4) |
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232 | (3) |
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7 Conclusions and Recommendations: Envisioning a Net Zero Carbon Future in the Built Environment |
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235 | (6) |
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235 | (3) |
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7.2 Recommendations for Future Directions |
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238 | (3) |
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240 | (1) |
| Index |
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241 | |
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