Keyphrases
2-cycles
20%
Additive Compounds
20%
Binary Mixture
100%
Brayton
20%
CO 2
100%
CO2 Emissions
20%
CO2 Power Cycle
20%
CO2-Based Binary Mixtures
40%
CO2-based Mixture
20%
Comparative Analysis
20%
Cycle Configuration
20%
Economic Value
20%
Environmental Impact
20%
Environmental Impact Indicators
20%
Exergetic
100%
Exergoenvironmental Analysis
100%
Exergy Efficiency
60%
Heating Cycle
60%
High-cycle
20%
Levelized Cost of Energy
40%
Maximum Power Output
20%
Minimum Temperature
20%
Mixed Working Fluid
20%
Mole Fraction
20%
Partial Heating
60%
Plant Sustainability
20%
Power Cycle
100%
Power Output Efficiency
20%
Pressure Ratio
40%
Regenerative Cycle
60%
Selection Criteria
20%
Sustainability Indicators
20%
Techno-economic-environmental Analysis
100%
Thermodynamic Analysis
20%
Toluene
100%
Value Cycle
20%
Working Fluid
40%
Engineering
Binary Mixture
100%
Comparative Analysis
20%
Exergy Efficiency
60%
Heating Cycle
60%
Impact Index
20%
Levelized Cost of Electricity
40%
Maximum Power Output
20%
Mole Fraction
20%
Phase Composition
20%
Power Cycle
100%
Pressure Ratio
40%
Regenerative Cycle
60%
Selection Criterion
20%
Sustainability Index
20%