INIS
air pollution abatement
17%
balances
5%
benzene
5%
biomass
11%
comparative evaluations
11%
compression
7%
compressors
15%
condensers
10%
conversion
10%
correlations
10%
design
17%
diesel engines
17%
efficiency
53%
energy
34%
energy demand
5%
energy efficiency
17%
equations
10%
evaporators
10%
exergy
17%
fluids
38%
heat
17%
heat exchangers
71%
heat recovery
28%
heat transfer
16%
heaters
10%
increasing
17%
low pressure
10%
low temperature
10%
output
16%
performance
100%
plates
21%
power
43%
power systems
10%
rankine cycle
50%
shells
21%
size
52%
sizing
16%
solutions
23%
speed
7%
superheaters
10%
thermal efficiency
28%
thermodynamics
35%
toluene
17%
tubes
21%
values
17%
waste heat
57%
working fluids
43%
Engineering
Biomass
11%
Cold Side
10%
Compression System
7%
Condenser
10%
Considered System
10%
Conversion Process
10%
Correlation Equation
10%
Cycle Design
17%
Cycles
5%
Diesel Generator
17%
Efficiency
35%
Emission Reduction
17%
Energetics
23%
Energy Demand
5%
Energy Efficiency
17%
Energy Engineering
10%
Exergetic Efficiency
17%
Exergy Destruction
17%
Exhaust Temperature
35%
Fluid
32%
Fluid Model
10%
Fluid Temperature
5%
Heat Exchanger
32%
Heat Input
17%
Heat Transfer Area
16%
Heat Transfer Coefficient
10%
High Degree
5%
Individual Component
9%
Low Pressure
10%
Low Temperature Waste Heat
10%
Max
5%
Models
17%
Operational Condition
10%
Organic Rankine Cycle
50%
Output Work
10%
Performance
100%
Phase Fluid
10%
Plate Heat Exchanger
10%
Power Conversion
10%
Power Cycle
5%
Power Engineering
10%
Power Output
5%
Preheater
10%
Requirements
17%
Superheater
10%
Thermal Efficiency
28%
Thermodynamics
35%
Tubes (Components)
10%
Waste Heat Recovery System
28%
Physics
Foci
9%
Heat Exchanger
53%
Increasing
17%
Model
17%
Parameter
35%
Performance
100%
Pressure
35%
Renewable Energy
11%
Speed
7%
Technology
5%
Thermodynamic Efficiency
17%
Thermodynamics
35%
Value
17%
Working Fluid
11%
World
5%