INIS
indonesia
100%
energy
95%
air
87%
design
85%
performance
78%
testing
67%
air conditioning
60%
refrigerants
55%
air conditioners
52%
units
51%
cooling
43%
labelling
38%
indoors
38%
applications
34%
energy efficiency
34%
construction
33%
energy consumption
32%
devices
31%
capacity
31%
equipment
29%
variations
28%
hydrocarbons
27%
water
26%
fans
25%
air flow
24%
control systems
24%
biogas
22%
stirling engines
22%
cooling towers
22%
safety analysis
22%
droplets
22%
phase change materials
22%
data
20%
pipes
20%
regulations
20%
heating
19%
outdoors
19%
ducts
19%
distribution
18%
simulation
18%
reduction
18%
oils
18%
thermoelectric coolers
17%
refrigeration
17%
temperature measurement
17%
length
17%
finite element method
16%
velocity
16%
solutions
16%
efficiency
15%
Keyphrases
Psychrometric Chamber
99%
Indonesia
87%
Air Conditioning
79%
Air Conditioner
63%
Refrigerant
54%
Air Handling Unit
49%
R290
38%
Energy Label
37%
Evaporator
37%
Auditorium
35%
Performance Analysis
34%
Oil Retention
33%
Natural Refrigerants
32%
Energy Efficiency Ratio
30%
Indoor Air
29%
Universitas Indonesia
29%
Biogas
28%
Energy Consumption
26%
Pressure Drop
26%
Electricity Generation
24%
Energy Resources
22%
Stirling Engine
22%
Safety Analysis
22%
Heat Transfer Rate
22%
Split Air Conditioner
22%
Hydrocarbon Refrigerant
22%
Phase Change Material
22%
Measurement Device
22%
Failure Analysis
22%
Condenser
21%
Cooling Capacity
21%
Energy Efficiency
20%
Cooling Load
19%
Energy Performance
19%
Control System
18%
ASHRAE
18%
Hydrocarbons
18%
Test Chamber
18%
Cooling Tower
18%
Air Flow Rate
18%
Refrigeration System
17%
Humidity
17%
Fan Performance
16%
Air Loop
16%
Thermoelectric Cooler
15%
Coconut Oil
14%
Cold Storage
14%
Duct Length
14%
Air Sampler
13%
Inlet Duct
13%
Engineering
Psychrometrics
99%
Air Conditioner
74%
Computational Fluid Dynamics
63%
Chiller
61%
Handling Unit
49%
Auditoriums
47%
Air Conditioning System
45%
Energy Conservation
41%
Air Conditioning
38%
Indoor Air
38%
Evaporator
36%
Performance Analysis
33%
Microchannel
33%
Air Flow
32%
Cooling Load
31%
Energy Efficiency Ratio
29%
Exchanger
25%
Duct
24%
Cooling Capacity
24%
Safety Analysis
22%
Air Change
22%
Change Rate
22%
Refrigeration System
22%
Energy Efficiency
22%
Tower
22%
Biogas
22%
Failure Analysis
22%
Phase Change Material
22%
Pressure Drop
21%
Finite Element Analysis
20%
Condenser
19%
Air Quality
19%
Energy Performance
19%
Control System
18%
Welds
18%
Test Chamber
18%
Numerical Study
16%
Ceilings
16%
Fan Performance
16%
Expanded Graphite
14%
Mass Fraction
14%
Field Measurement
13%
Thermal Comfort
13%
Testing Method
12%
Storage Capacity
12%
Cooling Water
12%
Mineral Resource
11%
Power Generation
11%
Stirling Engine
11%
Air Flow Measurement
11%