INIS
heat exchangers
100%
plates
100%
heat transfer
100%
pressure drop
100%
ammonia
100%
design
50%
heat
50%
refrigerants
33%
working fluids
33%
compacts
33%
correlations
33%
safety
33%
energy conversion
33%
condensers
16%
electricity
16%
flexibility
16%
heating load
16%
energy supplies
16%
energy
16%
applications
16%
risks
16%
thermal properties
16%
comparative evaluations
16%
recovery
16%
rankine cycle
16%
thermal conductivity
16%
hydrocarbons
16%
maintenance
16%
chemical engineering
16%
thermodynamic cycles
16%
size
16%
charges
16%
refrigeration
16%
energy shortages
16%
Engineering
Frictional Pressure Drop
100%
Plate Heat Exchanger
100%
Heat Transfer
100%
Energy Engineering
60%
Facilities
40%
Fluid
40%
Energy Conversion
40%
Design Method
40%
Cycles
40%
Correlation
40%
Application
20%
Small Size
20%
Chemical Engineering
20%
Produce Electricity
20%
High Thermal Conductivity
20%
Coming Year
20%
Latent Heat
20%
Refrigerant
20%
Data Base
20%
Safety Issue
20%
Recovery
20%
Experiments
20%
Design
20%
Safety Risk
20%
Heating Load
20%
Renewables
20%
Condenser
20%
Organic Rankine Cycle
20%
Thermodynamics
20%
Transfer Process
20%
Chemical Engineering
Heat Transfer
100%
Thermal Load
25%
Thermodynamics
25%
Hydrocarbon
25%
Refrigeration
25%
Thermal Conductivity
25%
Thermodynamic Property
25%
Chemical Engineering
25%
Rankine Cycle
25%
Latent Heat
25%
Keyphrases
Driving Energy
20%
Hydrofluorocarbons
20%
Eco-friendly Working Fluid
20%
Hydrofluoroolefins
20%