Engineering
Heat Pump
100%
Ammonia Water
19%
Temperature Heat Pump
17%
Evaporator
16%
Energy Engineering
16%
Vapor Compression
13%
Pump Cycle
13%
Exergy Destruction
13%
Coefficient of Performance
12%
Exchanger
11%
Control Strategy
11%
Exergy Analysis
10%
Heat Source
10%
Heat Supply
9%
Boiler
9%
Heat Recovery
8%
Pressure Drop
8%
Supply Temperature
7%
Plate Heat Exchanger
7%
Energy Conservation
6%
District Heating
6%
Boundary Condition
6%
Irreversibility
5%
Exhaust Air
5%
Spray Dryer
5%
Dynamic Models
5%
Keyphrases
Heat Pump
26%
Industrial Heat Pumps
16%
Work Domain
10%
Hybrid Absorption-Compression Heat Pump
9%
Coefficient of Performance
7%
High-temperature Heat Pump
7%
Ammonia Water
6%
Working Fluid
6%
Zeotropic Mixture
5%
Exergy Analysis
5%
Vapor Compression Heat Pump
5%
Supply Temperature
5%
High Temperature
5%
Performance Estimation
5%