Engineering & Materials Science
Proton exchange membrane fuel cells (PEMFC)
100%
Heat transfer
78%
Methanol
56%
Diesel engines
50%
Engines
44%
Hydrogen
44%
Channel flow
44%
Temperature
39%
Reforming reactions
39%
Smoke
37%
Mixed convection
36%
Nusselt number
35%
Taguchi methods
35%
Heat transfer performance
34%
Steam
33%
Hot Temperature
32%
Turbulent flow
30%
Reynolds number
30%
Flow fields
28%
Pistons
23%
Biodiesel
21%
Engine cylinders
21%
Steam reforming
20%
Fuel cells
20%
Temperature distribution
19%
Urea
19%
Finite element method
18%
Thermodynamics
18%
Diffusion in gases
18%
Grashof number
16%
Exhaust gas recirculation
16%
Brakes
16%
Natural convection
16%
Gases
15%
Catalysts
15%
Large eddy simulation
14%
Conjugate gradient method
13%
Fuel consumption
13%
Heat convection
12%
Engine pistons
12%
Buoyancy
12%
Ethanol
12%
Vortex shedding
11%
Pressure drop
11%
Gasoline
11%
Porosity
11%
Heat conduction
10%
Cathodes
10%
Convection
10%
Physics & Astronomy
heat transfer
63%
convection
26%
Nusselt number
23%
augmentation
23%
turbulent flow
23%
convective heat transfer
20%
fuel cells
20%
engines
18%
Reynolds number
18%
synthesis gas
17%
free convection
16%
flow distribution
14%
performance
14%
ureas
14%
installing
14%
finite element method
14%
Taguchi methods
13%
eccentrics
12%
hydrogen
10%
fins
9%
turbulent heat transfer
9%
steam
9%
porosity
9%
viscosity
9%
forced convection
9%
predictions
8%
methodology
8%
heat sources
8%
piston engines
8%
large eddy simulation
8%
temperature
8%
thermodynamics
8%
internal flow
8%
vortex generators
7%
Grashof number
7%
temperature distribution
7%
vortex shedding
7%
fluids
7%
membranes
7%
buoyancy
6%
pistons
6%
protons
6%
unsteady flow
6%
vortices
5%
conductive heat transfer
5%
annuli
5%
dry friction
5%
viscous drag
5%
prolate spheroids
5%
Rayleigh number
5%
Mathematics
Heat Transfer
32%
Hydrogen
22%
Mixed Convection
22%
Diesel Engine
21%
Performance
20%
Enhancement
19%
Engine
17%
Nusselt number
17%
Heat Transfer Enhancement
15%
Taguchi Method
15%
Membrane
14%
Gas
12%
Mm
12%
Combustion
11%
Channel Flow
11%
Turbulent Flow
10%
Prediction
10%
Augmentation
10%
Inclined
10%
Finite Element Analysis
9%
Methodology
7%
Finite Element Method
7%
Horizontal
7%
Turbulent Channel Flow
7%
Injection
7%
Reynolds number
6%
Temperature Distribution
6%
Timing
6%
Water
6%
Parameter Design
6%
Heating
6%
Decrease
6%
Design Methodology
6%
Transient Heat Conduction
6%
Temperature-dependent Viscosity
6%
Flow Rate
6%
Network Algorithms
5%
Fluid
5%
Laminar Flow
5%
Cuboid
5%
Variable Viscosity
5%
Heat Conduction
5%