INIS
natural circulation
100%
parabolic trough collectors
92%
performance
49%
irradiance
41%
flow rate
40%
applications
35%
heat transfer
34%
stability
28%
geometry
28%
inclination
24%
aspect ratio
21%
heat exchangers
21%
heat
21%
absorption
21%
fins
21%
tubes
21%
computational fluid dynamics
21%
heat flux
21%
nanofluids
21%
steady-state conditions
19%
heat transfer fluids
18%
comparative evaluations
18%
levels
14%
fluids
14%
volume
14%
distribution
14%
modifications
14%
sustainability
14%
heating load
12%
power
12%
orifices
12%
fluid flow
9%
water
9%
instability
8%
indoors
7%
particles
7%
implementation
7%
data
7%
pumping
7%
agglomeration
7%
hybrids
7%
laminar flow
7%
augmentation
7%
efficiency
7%
power systems
7%
load analysis
5%
dowtherm
5%
Engineering
Parabolic Trough Collector
64%
Natural Circulation
64%
Parabolic Trough
42%
Heat Transfer
28%
Stability
25%
Performance
25%
Aspect Ratio
21%
Computational Fluid Dynamics
21%
Heating Load
21%
Orifice
21%
Finned Tube
21%
Longitudinal Fin
21%
Analytical Study
21%
Operational Parameter
21%
Geometrical Parameter
21%
Fluid Flow
21%
Tubes (Components)
21%
Irradiance
21%
Analytical Model
17%
Models
14%
Direct Normal Irradiance
14%
Applications
13%
Heat Transfer Fluid
12%
Trough
10%
Bulk Temperature
10%
Conventional System
10%
Oil
10%
Forced Convection
10%
Properties
10%
Thermal Conductivity
10%
Laminar Flows
10%
Design Parameter
10%
Flow Rate
10%
Water
9%
Large Diameter
9%
Direct Absorption Receiver
7%
Stability Characteristic
7%
Power Requirement
7%
Reduction
7%
Determines
7%
Heat Transport Capability
7%
Stability Analysis
7%
Renewable Energy
7%
Good Match
7%
State Characteristic
7%
Lower Temperature
7%
Experimental Investigation
7%
Low Pressure
7%
Numerical Model
5%
Sustainable Development
5%
Physics
Circulation
92%
Performance
52%
Model
49%
Independent Variables
42%
Heat Transfer
34%
Technology
26%
Stability
25%
Flow Velocity
25%
Utilization
25%
Diameters
21%
Computational Fluid Dynamics
21%
Significance
21%
Tube Heat Exchanger
21%
Thermal Analysis
21%
Transportation
21%
Orifice
16%
Solar Irradiance
14%
Nanofluid
14%
Numerical Model
10%
Volume
10%
Temperature
10%
Fractions
10%
Geometry
10%
Fluid Flow
9%
Computational Modeling
8%
Revisions
7%
Foci
7%
Ratios
5%
