Engineering
Life Cycle Assessment
100%
Technical Equipment
66%
Paris Agreement
66%
Office Buildings
66%
Greenhouse Gas
66%
Electrical Equipment
66%
Ground Floor
66%
Structural Element
66%
Floor Area
66%
Public Building
66%
Economic Assessment
66%
Policymakers
66%
Environmental Impact
55%
Material Level
44%
Construction Sector
33%
Primary Energy
33%
Life-Cycle Cost Analysis
33%
Case Study Building
33%
Building Sector
33%
Mitigation Strategy
33%
Boundaries of the System
33%
Building Material
33%
Energy Engineering
33%
Embodied Carbon
33%
Percent Increase
22%
Global Warming Potential
22%
Additional Thermal Insulation
16%
Mitigation Effect
16%
Material Production
16%
External Cost
16%
Residential Sector
16%
Service Sector
16%
European Union Directives
11%
Limitations
11%
Input Data
11%
Lifecycle
11%
Design Phase
11%
Operational Energy
11%
Reference Building
11%
Functional Unit
11%
Global Warming
11%
Building Services
11%
Service Life
11%
Construction Site
11%
Building Construction
11%
Early Life
9%
Earth and Planetary Sciences
Public Procurement
76%
Literature Review
66%
Life Cycle Assessment
66%
Paris Agreement
66%
Emissions
66%
Geothermal Energy
66%
Data Center
66%
Construction Industry
28%
Carbon Dioxide Emission
28%
Global Climate
9%
Global Warming
9%
Carbon Neutrality
9%
Environmental Assessment
9%
Assessment Method
9%
Emission Reduction
9%