Engineering
Heat Pump
100%
Global Warming Potential
82%
Refrigeration System
72%
Exchanger
54%
Heat Pump Water Heater
40%
Energy Conservation
36%
Condenser
30%
Air Conditioning
26%
Air Conditioning System
22%
Phase Change Material
22%
Water Heating
21%
Evaporator
18%
Thermoelectricity
16%
Heat Storage
16%
Lifecycle
16%
Air Flow
15%
Air Conditioner
15%
Pressure Drop
15%
Commercial Building
15%
Vapor Compression
14%
Source Heat Pump
14%
Energy Efficiency
13%
Combustibility
13%
Design Model
13%
Pump Design
12%
Computational Fluid Dynamics
12%
EnergyPlus
11%
Thermal Energy Storage
11%
Systems Performance
11%
Integrated Heat Pump
11%
Exergy Analysis
10%
Greenhouse Gas
10%
Energy Simulation
10%
Fault Detection and Diagnosis
10%
Global Warming
9%
Flow Rate
9%
Flow Velocity
9%
Porosity
9%
Parametric Analysis
9%
Performance Analysis
8%
Experimental Investigation
8%
Dynamic Models
8%
Pump Application
8%
Control Strategy
8%
Duct
8%
Indoor Air
8%
Airflow Rate
7%
Demand Reduction
7%
Phase Boundary
7%
Dehumidification
7%
Quasi Steady State
7%
Temperature Water
7%
Energy Efficiency Ratio
7%
Parametric Study
7%
Fin Heat Exchanger
7%
Building Heating
7%
Vapor Compression System
6%
Hour Rating
6%
Natural Gas
6%
Office Buildings
6%
Condensation Heat Transfer
6%
Genetic Algorithm
6%
Refrigerant Leakage
6%
High-Temperature Heat Exchanger
6%
Gas Engine
6%
Multiobjective Optimization
6%
Carbon Dioxide Capture
6%
Coefficient of Performance
6%
United States
6%
Expansion Valve
6%
Residential Building
6%
Microchannel
6%
Latent Heat
5%
Heating Capacity
5%
Heat Exchanger Design
5%
Energy Systems
5%
Discharge Temperature
5%
Outdoor Temperature
5%
Low-Temperature
5%
Experimental Result
5%
Thermal Load
5%
Engineering
5%
Space Heating
5%
Hot Water Tank
5%
Carbon Footprint
5%
Performance Improvement
5%
Orifice
5%
Comparative Analysis
5%
Ground Source Heat Pump
5%
Mathematical Model
5%
Parametric Optimization
5%
Carbon Capture
5%
Electric Resistance
5%