Keyphrases
Organic Rankine Cycle
100%
Waste Heat Recovery
39%
Working Fluid
29%
Pakistan
28%
Renewable Energy
27%
Phase Change Material
23%
Expander
19%
Thermal Performance
17%
Low-grade Heat Recovery
15%
Sustainable Environment
15%
Solar Organic Rankine Cycle
15%
Electronics Cooling
15%
Adsorbent
15%
Solar Energy
14%
Carbon Capture
13%
Evaporator
13%
R245fa
13%
Energy Analysis
13%
Nigeria
13%
Performance Assessment
13%
Energy Demand
12%
Heat Sink
12%
CO2 Capture
12%
Material Storage
12%
Exergy Efficiency
12%
Power Cycle
11%
Supercritical CO2 (SCO2)
11%
Numerical Analysis
10%
Thermal Efficiency
10%
Heat Exchanger
10%
Dynamic Model
10%
Nearly Zero Energy Buildings (nZEB)
9%
Genetic Algorithm
9%
Cycle Configuration
9%
Waste Heat
9%
High Temperature
9%
Activated Carbon
9%
Performance Evaluation
9%
Direct Vapor Generation
9%
Hybrid Energy
9%
Heavy-duty Vehicles
9%
Desorption
9%
Carbon Dioxide
8%
Cooling System
8%
Pressure Drop
8%
ORC System
8%
Vapor Compression Cycle
8%
Nanofluid
8%
Refrigerant
8%
Techno-economic Feasibility
8%
Engineering
Organic Rankine Cycle
97%
Waste Heat Recovery System
52%
Phase Change Material
24%
Power Cycle
21%
Low-Temperature
20%
Renewable Energy
19%
Power Engineering
18%
Compressed Air Motors
18%
Solar Energy
17%
Renewable Energy Source
16%
Experimental Investigation
15%
Renewable Energy System
15%
Exchanger
14%
Actuator
14%
Heat Sources
14%
Thermal Performance
13%
Cooling System
13%
Evaporator
12%
Vapor Compression
12%
Exergy Efficiency
12%
Condenser
12%
Thermodynamic Efficiency
12%
Turbine
11%
Climatic Change
11%
Climate Change
11%
Power Generation
11%
Coefficient of Performance
11%
Carbon Capture
11%
District Heating
10%
Power Output
10%
Supercritical Carbon Dioxide
10%
Performance Analysis
10%
Nanofluid
10%
Genetic Algorithm
9%
Greenhouse Gas
9%
Net Zero Energy Building
9%
Exergy Analysis
9%
Energy Systems
9%
Energy Efficiency
9%
Pumping System
9%
Hybrid Energy
9%
Duty Vehicle
9%
Pressure Drop
9%
Refrigeration System
8%
Heat Pump
8%
Control Strategy
8%
Carbon Dioxide Capture
8%
Feasibility Study
8%
Energy Conversion
8%
Heat Transfer Coefficient
8%