Engineering & Materials Science
Steam reforming
100%
Methane
70%
Steam
54%
Waste heat
49%
Reforming reactions
47%
Thermodynamics
44%
Catalysts
43%
Computational fluid dynamics
35%
Temperature
35%
Hot Temperature
35%
Gas turbines
29%
Hydrogen
24%
Packed beds
24%
Flue gases
20%
Synthesis gas
19%
Pressure drop
17%
Synthetic fuels
16%
Ethanol
13%
Computer simulation
13%
Exhaust gases
12%
Ammonia
11%
Heat transfer
11%
Chemical analysis
10%
Carbon
10%
Hydrogen production
10%
Energy balance
9%
Gibbs free energy
9%
Waste heat utilization
9%
Methanol
9%
Energy efficiency
8%
Nickel
8%
Industrial furnaces
8%
Gases
8%
Hydrocarbons
8%
Algae
8%
Air
7%
Enthalpy
7%
Mass transfer
7%
Numerical models
7%
Flow of gases
6%
Porous materials
6%
Heating
6%
Natural gas
6%
Aluminum oxide
6%
Propane
6%
Biofuels
6%
Combined cycle power plants
6%
Experiments
6%
Chemical reactions
5%
Liquids
5%
Physics & Astronomy
steam
49%
methane
39%
charge flow devices
33%
waste heat
30%
synthetic fuels
18%
heat
18%
thermodynamics
14%
catalysts
12%
hydrogen fuels
12%
temperature
11%
flue gases
11%
heat balance
11%
synthesis gas
11%
hydrogen
10%
pressure drop
9%
ethyl alcohol
9%
beds
9%
hydrocarbon fuels
7%
computer programs
6%
hydrogen production
6%
mass balance
6%
combustion chambers
6%
propane
6%
flames
5%
fuel combustion
5%
combustion products
5%
regeneration
5%
gases
5%
heat pumps
5%
methyl alcohol
5%
optimization
5%
simulation
5%
gas turbines
5%
air
5%
heat transmission
5%
Mathematics
Methane
43%
Heat
22%
Gas Turbine
19%
Catalyst
17%
Thermodynamics
14%
Ammonia
12%
Packed Bed
11%
Combustion
10%
Pressure Drop
8%
Modeling
8%
Gas
8%
Carbon
7%
Numerical Simulation
7%
Hydrogen
6%
Experimental Investigation
6%
Microchannel
6%
Natural Gas
6%
Furnace
5%
Thermal Analysis
5%
Large Eddy Simulation
5%
Python
5%
Comparative Analysis
5%
Experimental Analysis
5%
Steady-state Analysis
5%
Activation Energy
5%
Cycle System
5%
Parameter Optimization
5%
Fluid Flow
5%
Numerical Investigation
5%