School of Computing, Engineering & Maths

Fingerprint The fingerprint is based on mining the text of the research documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit.

Engineering & Materials Science

Heat pipes
Engines
Engine cylinders
Biodiesel
Evaporation
Recommender systems
Diesel engines
Boiling liquids
Diesel fuels
Requirements engineering
Heating
Tensors
Compressed natural gas
Direct injection
Water
Atomization
Fluids
Collaborative filtering
Heat transfer
Liquids
Evaporators
Gasoline
Temperature
Internal combustion engines
Experiments
Microgravity
Wetting
Ignition
Visualization
Explosions
Gravitation
Heat transfer coefficients
Nozzles
Fuel injection
Cloud computing
Numerical models
Emulsions
Air
Seed
Costs
Heat sinks
Decision making
Heat flux
Brakes
Refrigerants
Information systems
Risk assessment
Military vehicles
Feedforward neural networks
Natural gas
Industry
Gas mixtures
Hot Temperature
Process planning
Large eddy simulation
Microchannels
Imaging techniques
Flow patterns
Thermosyphons
Liquid films
Vortex flow
Risk management
Rankine cycle
Supply chains
Automotive fuels
Pistons
Systems analysis
Space applications
Surface roughness
Sounding rockets
Carbon dioxide
Ontology
Logistics
Ethanol
Rubber
Chemical reactors
Computational fluid dynamics
Gas engines
Thermal fatigue
Demonstrations
Die casting
Fins (heat exchange)
Aerodynamics
Jet fuel
Gases
Calibration
Particle swarm optimization (PSO)
Combustion chambers
Esters
Automatic teller machines
Cooling
Geometry
Film thickness
Heat exchangers
Turbulence
Heat conduction
Computer simulation
Topology
Contact angle
Cameras

Physics & Astronomy

General

heat pipes
wettability
diesel fuels
bubbles
sprayers
vortex rings
nuclei
fluids
generators
simulation
gasoline
vortices
risk assessment
predictions
detachment
liquid phases
decay
condensation
injection
two phase flow
temperature measurement
working fluids
louvers
methodology
parabolic flight
collisions
ribbons
mesh
kinetics
film thickness
thermal simulation
strokes
wicks
flight conditions
image analysis
heat exchangers
spontaneous combustion
turbulent jets
splashing
inelastic collisions
mass transfer
formulations
tubes
cooling
experiment design
nozzles

Engineering

boiling
evaporation
pistons
diesel engines
heating
engines
atomizing
evaporators
nucleation
nucleate boiling
time measurement
life (durability)
heat sinks
hydrodynamics
half life
magnetic properties
ignition
internal combustion engines
excitation

Chemistry and Materials

liquids
solid surfaces
water
gases
interfacial tension
vapors
surface temperature
isotopes
molecules
microgravity
epoxidation
oils

Physics

heat transfer
temperature
rainbows
evaporation rate
heat flux
flow distribution
impact velocity
neutrons
roughness
refractivity
gas temperature
low speed
nanoparticles
turbulent diffusion
protons

Mathematical and Computer Sciences

meshfree methods
vorticity
differential equations

Aerospace Sciences

gravitation
gravitational waves
spectroscopy

Astronautics

sounding rockets

Life Sciences

vegetables

Chemical Compounds

Boiling liquids
Atomization
Liquids
Wetting
Water
Heat pipes
Diesel engines
Numerical models
Compressed natural gas
Diesel fuels
Surface roughness
Direct injection
Engine cylinders
Biofuels
Heat transfer
Pistons
Carbon Dioxide
Heat exchangers
Natural gas
Gasoline
Engines
Microchannels
Image analysis
Risk assessment
Carbon Monoxide
Contact angle
Permanent magnets
Film thickness
Temperature
Seed
Viscosity of liquids
Bubbles (in fluids)
Photography
Antioxidants
Fossil fuels
Soot
Experiments
Glycerol
Liquid films
Heat sinks
Acrylonitrile
Combustion chambers
Brakes
Glass
Heat flux
Automotive fuels
Ignition
Fluids
Heat transfer coefficients
Gases
Stators
Flax
Agricultural wastes
Printing
Gas engines
Carbon Nanotubes
Methylcellulose
Thermal fatigue
Styrene
Die casting
Fins (heat exchange)
Plant Oils
Substrates
Epoxidation
Surface tension
Jet fuel
Wire
Tool steel
Rubber
Microgravity
Flow patterns
Encapsulation
Calorimetry
Flow visualization
Analytical models
Heat conduction
Gas mixtures
Thin films
Supply chains
Hot Temperature
Hydrocarbons
Free piston engines
Power generation
Reynolds number
Physical properties
Evaporators