Earth & Environmental Sciences
environmental performance
100%
water use
96%
economics
83%
life cycle
69%
environmental impact
62%
resource efficiency
60%
carbon
56%
stakeholder
55%
product
50%
solid waste
47%
circular economy
47%
symbiosis
46%
indicator
45%
energy
44%
cost
42%
water treatment
36%
analysis
36%
textile industry
35%
water
34%
policy
34%
sustainability
33%
innovation
32%
hydrogen
31%
welfare economics
31%
recommendation
30%
resource
29%
industrial process
29%
social characteristics
29%
low carbon economy
28%
industry
27%
water footprint
26%
electric vehicle
26%
policy analysis
26%
electronic equipment
25%
electricity
25%
leather
25%
halide
24%
willingness to pay
23%
renewable energy source
23%
industrial effluent
23%
nanomaterial
23%
electrokinesis
23%
wool
22%
ecological impact
22%
prioritization
22%
environmental impact assessment
22%
directive
22%
alternative energy
22%
environmental assessment
22%
linear economy
21%
Engineering & Materials Science
Economics
98%
Produced Water
84%
Carbon capture
81%
Water
67%
Life cycle
63%
Solid wastes
62%
Industry
57%
Water treatment
50%
Sustainable development
50%
Environmental impact
50%
Carbon dioxide
47%
Hydrogen production
45%
Renewable energy resources
44%
Polysaccharides
39%
Electricity
36%
Amides
30%
Costs
29%
Gas emissions
29%
Greenhouse gases
28%
Molten carbonate fuel cells (MCFC)
28%
Dyeing
28%
Water levels
27%
Electrolysis
26%
Palladium
26%
Global warming
25%
Industrial wastes
25%
European Union
25%
Climate change
25%
Wool
25%
Nanostructured materials
25%
Waste management
24%
Sugars
24%
Amines
24%
Curing
24%
Feedstocks
23%
Textiles
22%
Cost effectiveness
21%
Nanoparticles
20%
Minerals
19%
Masks
19%
Carbon
19%
Industrial applications
18%
Bioethanol
18%
Acids
18%
Bagasse
18%
Toxicity
17%
Ethanol
17%
Thermodynamics
17%
Oxides
17%
Exergy
17%
Business & Economics
Eco-efficiency
76%
Water Use
63%
Catastrophe Model
63%
Life Cycle
37%
Value Chain
33%
Environmental Impact
28%
Hydrogen
27%
European Countries
26%
Cost-effectiveness Analysis
26%
Dyeing
25%
Renewable Energy Sources
24%
Environmental Economics
23%
Thermodynamics
22%
Attractiveness
22%
Energy Demand
20%
Electricity
20%
Upgrading
19%
Greece
19%
Web-based
19%
Environmental Performance
15%
Sustainability
14%
Energy Systems
14%
Innovative Technologies
13%
Resource Efficiency
12%
Scenarios
12%
Resources
12%
Least-Cost Planning
12%
Electricity Supply
12%
Renewable Energy
11%
Global Warming
11%
Alternatives
11%
Grid
11%
Industrial Ecology
10%
Sustainable Development
10%
Toxicity
10%
Renewable Energy Technology
8%
Incremental Cost
8%
Burden
8%
Eco-innovation
8%
Energy Management
8%
Economics
7%
Local Government
7%
Cost Analysis
7%
Textile Industry
7%
Particulate Matter
7%
Industry
7%
Exergy
7%
Trade-off Analysis
7%
Fossil Fuels
7%
Economic Growth
7%
