Earth and Planetary Sciences
Political Economy
100%
Temperature
100%
High Temperature
45%
Natural Gas
25%
Boiler
20%
Cost
20%
Heat
20%
Coefficient
15%
Steam
15%
Utility
15%
Electricity
15%
Science and Technology
10%
Process Heat
10%
Price
10%
Industrial Process
10%
Biomass
5%
Renewable Energy
5%
Ammonia
5%
Hot Water
5%
Hydrocarbon
5%
Thermodynamics
5%
Viability
5%
Heat Supply
5%
Working Fluid
5%
Amount
5%
Utilization
5%
Water
5%
Ratio
5%
Industry
5%
Shape
5%
Oil
5%
Constraint
5%
Significance
5%
Efficiency
5%
Cycle
5%
Contrast
5%
Delivery
5%
Engineering
Supply Temperature
100%
Economic Potential
100%
Temperature Heat Pump
45%
High Temperature
45%
Temperature
30%
Boiler
15%
Levelized Cost of Heat
15%
Steam
15%
Refrigerant
10%
Process Heat
10%
Biomass
5%
Sustainable Energy
5%
Hot Water
5%
Gas Oil
5%
Thermodynamics
5%
Industrial Applications
5%
Electricity Price
5%
Main Factor
5%
Capital Investment
5%
Operational Cost
5%
Heat Supply
5%
Reference Point
5%
Potential Yield
5%
Natural Gas Boiler
5%
Hot Utility
5%
Performance
5%
Design
5%
Water
5%
Energy Engineering
5%
Efficiency
5%
Constraints
5%
Cycles
5%
Large Amount
5%
Energy Systems
5%
Fluid
5%
Physics
Temperature
100%
Heat Pump
100%
High Temperature
45%
Coefficient of Performance
45%
Heat
30%
Gases
15%
Electricity
15%
Steam
15%
Utilities
15%
Natural Working Fluid
10%
Technology
10%
Water
10%
Industrial Process
10%
Hydrocarbon
5%
Ammonia
5%
Renewable Energy
5%
Carbonization
5%
Viability
5%
Utilization
5%
Cycles
5%
Performance
5%
Shapes
5%
Contrast
5%
Thermodynamics
5%
Ratios
5%
Capital
5%
Significance
5%
Chemistry
Potential
100%
Reaction Temperature
100%
Heat
30%
Boiler
20%
Natural Gas
15%
Electricity
15%
Procedure
15%
Engineering Process
10%
Energy
10%
Water Type
10%
Manufacturing Process
10%
R
10%
Hydrocarbon
5%
Ammonia
5%
Thermodynamics
5%
Biomass
5%
Refrigerant
5%
Application
5%
Amount
5%
Industry
5%
Oil
5%
Configuration
5%
Chemical Engineering
Temperature
100%
Carbonization
20%
Water
10%
Hydrocarbon
5%
Ammonia
5%
Thermodynamics
5%