Engineering
Buildings
100%
Life Cycle Assessment
51%
Development
39%
Reduction
36%
Climate Change
28%
Sustainable Building
26%
Life-Cycle Costing
24%
Stages
23%
Built Environment
21%
Sustainable Construction
21%
Achieving Sustainable Development
21%
Global Warming Potential
21%
Tunnels
21%
Process Planning
21%
New Austrian Tunneling Method
21%
Sustainable Development
20%
Lifecycle
19%
Algorithm
16%
Models
14%
Application
14%
Construction Sector
10%
Optimization
10%
Railway
10%
Steel
10%
Environmental Impact
10%
Economic Sector
10%
Tunneling (Trenchless Method)
10%
Energy Engineering
10%
Environmental Performance
10%
Production
10%
Sensitivity Analysis
10%
Supports
10%
Construction Process
8%
Building Performance
8%
Contaminant
8%
Demonstrates
8%
Environmental Dimension
7%
Determines
7%
Design Phase
7%
Practical Application
7%
Guidelines
7%
Sustainable Building Council
6%
Synergy
5%
Improvement Strategies
5%
Systemic Effect
5%
Applicability
5%
Life Cycle Cost Analysis
5%
Project Cost
5%
Sustainability Assessment
5%
Target Path
5%
Earth and Planetary Sciences
Investigation
31%
Building
21%
NATM
21%
Literature Review
21%
Sustainable Consumption
21%
Assessment
21%
Life Cycle Assessment
21%
Construction
19%
Project
17%
Climate Change
15%
Global Warming Potential
10%
Combat
10%
Construction Industry
9%
Carbon Dioxide Emission
9%
Handbook
8%
Show
8%
Set
7%
Need
7%
Identifying
7%
Life Cycle
5%
Environmental Impact
5%
Dominance
5%
Railway
5%
Modernization
5%
Greenhouse Gas Emission
5%
Shotcrete
5%
Social Sciences
Implementation
26%
Evaluation
24%
Systematic Review
21%
Life Cycle Assessment
21%
Transdisciplinary
21%
Analysis
21%
Quantitative Method
17%
Collaboration
8%
Quantitative
8%
Linguistics
8%
Interdisciplinarity
8%
Tendering
8%
Construction Industry
8%