INIS
absorbents
25%
absorption
12%
absorption heat
100%
absorption refrigeration cycle
12%
affinity
12%
ammonia
75%
applications
100%
assessments
12%
biomass
12%
boiling points
12%
climatic change
12%
cooling
12%
cooling systems
12%
coverings
12%
district heating
12%
efficiency
25%
energy
12%
energy conversion
12%
environment
12%
evaluation
25%
fluids
25%
global warming
12%
heat
25%
heat pumps
100%
heat sources
12%
heat transfer
12%
heating
12%
heating systems
12%
industry
12%
ionic liquids
100%
liquids
12%
mass transfer
12%
modeling
12%
performance
25%
prediction
12%
refrigerants
37%
refrigeration
100%
simulation
12%
slowdown
12%
spectra
12%
stability
12%
thermodynamic cycles
12%
thermodynamics
25%
transport
25%
vapors
25%
working fluids
25%
Engineering
Built Environment
25%
District Heating
25%
Energy Conversion
25%
Fields
50%
Fluid
100%
Global Warming
25%
Heat Pump
100%
Heat Source
25%
Heat Transfer
50%
Highlight
25%
Improving Efficiency
25%
Mass Transfer
50%
Multiscale
25%
Refrigerant
25%
Refrigeration
25%
Refrigeration Cycle
50%
Refrigeration System
100%
Renewables
25%
Solar Thermal Energy
25%
Thermal Energy
25%
Chemical Engineering
Ammonia
100%
Heating
60%
Refrigeration
100%
Thermodynamic Property
20%