INIS
nanofluids
100%
heat sinks
100%
performance
100%
thermal hydraulics
100%
nanoparticles
28%
heat transfer
28%
volume
28%
water
28%
prediction
14%
sustainable development
14%
design
14%
surfaces
14%
power
14%
cooling
14%
deformation
14%
simulation
14%
particle size
14%
transport
14%
comparative evaluations
14%
approximations
14%
coolants
14%
fluids
14%
industry
14%
water cooled reactors
14%
electronic equipment
14%
size
14%
pumping
14%
Material Science
Water
100%
Hydraulics
100%
Heat Sink
100%
Temperature
66%
Heat Transfer
66%
Thermal Load
33%
Electronic Device
33%
Electronics
33%
Volume Fraction
33%
Fluid
33%
Coolant
33%
Surface
33%
Particle
33%
Engineering
Heatsinks
100%
Nanofluid
100%
Performance Analysis
100%
Enhancement
22%
Base Fluid
11%
Particle Size
11%
Models
11%
Temperature Rise
11%
Nanoparticle
11%
Pumping Power
11%
Induced Deformation
11%
Design
11%
Maximum Temperature
11%
Electronics Industry
11%
Sustainable Development
11%
Numerical Prediction
11%
Electronic Devices
11%
Chemical Engineering
Water
100%
Heat Transfer
66%
Temperature
66%
Thermal Load
33%
Aluminium Oxide Nanoparticle
33%