INIS
energy
100%
chemisorption
100%
exploitation
100%
energy storage
100%
heat recovery
100%
heat
71%
salts
42%
power
42%
low temperature
42%
sodium bromides
42%
efficiency
28%
high temperature
28%
expansion
28%
reactors
28%
electricity
28%
adsorption
28%
heat sources
28%
comparative evaluations
14%
storage
14%
performance
14%
high pressure
14%
compression
14%
coupling
14%
energy density
14%
cooling
14%
lifts
14%
vapors
14%
working fluids
14%
by-products
14%
power generation
14%
adsorbents
14%
exergy
14%
manganese chlorides
14%
calcium chlorides
14%
Engineering
Heat Recovery
100%
Energy Engineering
100%
Electric Energy Storage
100%
Low-Temperature
50%
Mechanical Power
50%
Heat Source
50%
Adsorption
50%
Energy Conservation
25%
Thermal Energy
25%
Power Generation
25%
Exergy Efficiency
25%
Temperature Lift
25%
Electricity Storage
25%
Charging Process
25%
Roundtrip
25%
Thermal Energy Storage
25%
Low Temperature Heat
25%
Cold Expansion
25%
Chemical Energy
25%
Electrical Power
25%
Energy Efficiency
25%
Energy Density
25%
Integrated System
25%
Resorption
25%
Material Science
Adsorption
100%
Chemisorption
100%
Manganese
50%
Mechanical Processing
50%
Sodium
50%
Energy Density
50%
Cold Expansion
50%
Chemical Engineering
Adsorption
100%
Chemisorption
100%
Calcium Chloride
50%
Exergy
50%