Fingerprint The Fingerprint is defined by mining the titles and abstracts of research outputs and projects/funding awards associated with people in the research unit. The process creates an index of weighted terms from discipline-specific thesauri.

Engineering & Materials Science

Heat transfer
Aerosols
Nanoparticles
Natural convection
Temperature
Fluids
Mass transfer
Reynolds number
Heat transfer coefficients
Sensors
Cooling
Engines
Experiments
Plasmas
Air
Nusselt number
Boundary layers
Turbulence
Gases
Engine cylinders
Water
Silicon
Hydraulics
Nanocrystals
Pressure drop
Flow of fluids
Particles (particulate matter)
Diesel engines
Liquids
Tissue
Turbines
Ducts
Heat exchangers
Geometry
Hot Temperature
Computer simulation
Heat flux
Actuators
Heating
Turbulent flow
Friction
Carbon nanotubes
Porous materials
Condensation
Thin films
Polymers
Composite materials
Vortex flow
Temperature distribution
Controllers
Pistons
Graphene
Freezing
Substrates
Sampling
Nanowires
Boiling liquids
Laminar flow
Flow rate
Particle size
Turbomachine blades
Ignition
Kinematics
Nucleation
Fabrication
Enclosures
Atmospheric pressure
Structural dynamics
Fins (heat exchange)
Forced convection
Vapors
Flow fields
Ions
Trajectories
Coolants
Soot
Muscle
Nozzles
Secondary flow
Boundary conditions
Wire
Pipe flow
Self assembly
Fibers
Thermal conductivity
Prandtl number
Robots
Particle size analysis
Momentum
Heat conduction
Mixed convection
Costs
Aspect ratio
Single-walled carbon nanotubes (SWCN)
Oxidation
Naphthalene
Electrodes
Flow visualization
Aerodynamics
Pumps

Chemical Compounds

Heat transfer
Aerosols
Nanoparticles
Natural convection
Silicon
Gases
Temperature
Heat transfer coefficients
Plasmas
Water
Mass transfer
Nanocrystals
Fluids
Nusselt number
Carbon Nanotubes
Graphite
Reynolds number
Experiments
Air
Ions
Polymers
Pressure drop
Nucleation
Liquids
Nanowires
Flow of fluids
Ducts
Freezing
Cooling
Condensation
Atmospheric pressure
Tissue
Boundary layers
Sensors
Heat flux
Thin films
Substrates
Boiling liquids
Particle size
Metals
Vapors
Heating
Fins (heat exchange)
Porous materials
Computer simulation
Hot Temperature
Forced convection
Mixed convection
Composite materials
Temperature distribution
Fabrication
Laminar flow
Electrons
Ice
Geometry
Turbulent flow
Silicon Dioxide
Soot
Flow rate
Self assembly
Cells
Turbulence
Microchannels
Microfluidics
Gold
Thermal conductivity
Electrodes
Sampling
Enclosures
Fibers
Evaporation
Engine cylinders
Prandtl number
Friction
Plasma Gases
Molecules
Silanes
Boundary conditions
Aspect ratio
Aerodynamics
Buoyancy
Nanostructured materials
Vehicle Emissions
Heat exchangers
Chemical vapor deposition
Crystalline materials
Single-walled carbon nanotubes (SWCN)
Semiconductor materials
Argon
Chemical analysis
Radiation counters
Carbon
Orifices
Membranes
Semiconductor quantum dots
Tumors
Molecular dynamics
Mass spectrometry
Atmospheric humidity
Nozzles

Physics & Astronomy

Physics

heat transfer
nanoparticles
heat transfer coefficients
atmospheric pressure
temperature
heat
turbulent heat transfer
plasma jets
heat flux
low pressure
coefficients
ions
temperature distribution
flow distribution
conductive heat transfer
thermal conductivity
gas temperature

General

free convection
mass transfer
tubes
nanocrystals
fluids
fins
sensors
simulation
fluid flow
convection
boundary layers
pressure drop
forced convection
synthesis
thin films
enclosure
energy
heat exchangers
augmentation
formulations
vapor phases
predictions
vortices
conduction
injection
vapor deposition
pipe flow

Mathematical and Computer Sciences

Nusselt number
Reynolds number
Rayleigh number
Prandtl number

Geosciences

aerosols

Chemistry and Materials

silicon
air
water
liquids
polymers
gases
vapors

Engineering

graphene
carbon nanotubes
ducts
nanowires
nucleation
heating
electrodes
fabrication

Aeronautics

turbulent flow
laminar flow

Aerospace Sciences

turbulence
cavities