Engineering
Mitigation Strategy
94%
Built Environment
85%
Building Stock
85%
Environmental Impact
85%
Life Cycle Assessment
85%
Decision Maker
64%
Greenhouse Gas
53%
Climate Change
53%
Environmental Performance
53%
Metrics
42%
Sectoral
42%
Lifecycle Cost
42%
Building Design
42%
Sustainability Assessment
42%
Shortfall
42%
Earth System
42%
Building Sector
42%
Industry Standard
42%
Material Flow
42%
Sustainable Building
42%
Impact Category
21%
Operational Energy
10%
Electricity Grid
10%
Limiting Value
10%
Global Warming
10%
Sustainable Practice
10%
Target Value
10%
Temperature Increase
10%
Policymakers
10%
Paris Agreement
10%
Global Warming Potential
8%
Heat Supply
8%
Keyphrases
Building Stock
85%
Mitigation Strategies
53%
Just Sustainability
42%
Climate Targets
42%
Environmental Impact Assessment (EIA)
42%
Environmental Impact
42%
Decarbonization
32%
New Buildings
32%
Impact Categories
21%
Emission Budget
21%
Global Emissions
21%
Sectoral Regulation
14%
Transnational Regulation
14%
Overall Impact
10%
Danish Universities
10%
Decision Maker
10%
Existing Buildings
10%
Campus Buildings
10%
Absolute Limit
10%
University Campus
10%
Embodied Impacts
10%
Burden Shifting
10%
Electric Grid
10%
Global Warming
10%
Addressing Climate Change
10%
Global Warming Potential
10%
Dynamic LCA
10%
Mitigation Potential
10%
Mitigation Actions
10%
Impact Reduction
10%
Operational Energy
10%
Substantial Reduction
10%
Planetary Boundaries
10%
Multiple Actions
10%
Future Growth
10%
Prospective Model
10%
Annual Emission
10%
Increased Demand
10%
Current Estimation
10%
Greenhouse Gas Emissions
10%
All Levels
10%
Energy Demand
10%
Electricity Supply
10%
Reduce Greenhouse Gas
10%
Heat Supply
10%
Earth and Planetary Sciences
Environmental Impact Assessment
100%
Built Environment
57%
Life Cycle Assessment
53%
Environmental Impact
53%
Climate Change
42%
Sustainable Building
42%
Greenhouse Gas
42%
Circular Economy
42%
Downscaling
28%
Environmental Performance
24%
Carbon Dioxide Emission
14%
Decision Making
14%
Life Cycle Cost
14%
Paris Agreement
14%
Global Climate
14%
Limit Value
14%
Greenhouse Gas Emission
14%
Global Warming
14%
Material Flow
14%
Feedback
14%
Architectural Design
10%
Carrying Capacity
10%
Construction Industry
10%
Heat Supply
10%
Global Warming Potential
10%
Electricity Supply
10%
Evaluation Method
10%