INIS
nanofluids
100%
convection
100%
heat transfer
100%
nanotechnology
42%
fluids
42%
applications
28%
engines
28%
metals
14%
thermal conductivity
14%
power
14%
graphite
14%
engineering
14%
mathematical models
14%
geometry
14%
devices
14%
aluminium nitrides
14%
silicon carbides
14%
fuel cells
14%
connections
14%
cooling
14%
carbides
14%
ethylene glycols
14%
pharmaceuticals
14%
nitrides
14%
carbon nanotubes
14%
colloids
14%
microelectronics
14%
nonmetals
14%
comparative evaluations
14%
heating
14%
water
14%
nanostructures
14%
oxides
14%
simulation
14%
oils
14%
dynamics
14%
particles
14%
hybrids
14%
Keyphrases
Convection
100%
Heat Transfer
100%
Nanofluid
100%
Nanotechnology
42%
Base Fluid
28%
Colloids
14%
Engine Oil
14%
Recurrent Urinary Tract Infections (rUTIs)
14%
Hybrid Power
14%
Graphite Carbon
14%
Carbon Nanotubes
14%
Al-Cu
14%
Physical Perspective
14%
Enhanced Thermal Conductivity
14%
Ti-oxide
14%
Engineering Perspective
14%
Disc-shaped Body
14%
Ethylene Glycol-water
14%
Nitrides
14%
Microelectronics
14%
Convective Heat Transfer Coefficient
14%
Nanometer-sized Particles
14%
Fuel Cell
14%
Carbides
14%
Pharmaceutical Processes
14%
Modern Technologies
14%
Aluminum Oxide
14%
Non-metal
14%
Successful Completion
14%
Nanodevices
14%
Flow Condition
14%
Mathematical Model
14%
Nanoscience
14%
Thermal Conditions
14%
Engineering
Nanofluid
100%
Base Fluid
28%
Convective Heat Transfer Coefficient
14%
Thermal Conductivity
14%
Mathematical Model
14%
Diesel Engine
14%
Microelectronics
14%
Carbon Nanotube
14%
Hybrid Power
14%
Colloid
14%
Sized Particle
14%
Nitride
14%
Fuel Cell
14%
Nanometre
14%
Engineering
14%