Engineering & Materials Science
Engines
100%
Ammonia
64%
Hydrogen
59%
Cryogenics
56%
Rankine cycle
56%
Liquefied natural gas
53%
Cooling
33%
Hot Temperature
31%
Heating
30%
Biofuels
30%
Marine applications
29%
Thermodynamics
27%
Diesel engines
27%
Free piston engines
27%
Power generation
26%
Waste heat utilization
25%
Decarbonization
23%
Boiling liquids
23%
Oils
22%
Marine engines
21%
Exergy
21%
Vacuum
21%
Air
21%
Engine cylinders
21%
Water
19%
Gas engines
19%
Evaporation
19%
Temperature
18%
Service vessels
17%
Carbon
17%
Atmospheric pressure
16%
Nitric oxide
16%
Lipids
14%
Freight transportation
14%
Economic analysis
14%
Compressors
13%
Diesel fuels
13%
Powertrains
13%
Algae
13%
Transfer learning
12%
Working fluids
12%
Preheating
12%
Argon
12%
Phase change materials
11%
Pressure drop
11%
Ignition
11%
Renewable energy resources
11%
Liquids
11%
Natural gas
11%
Ships
10%
Physics & Astronomy
ammonia
32%
exergy
31%
boiling
26%
hydrogen
26%
engines
25%
air
22%
generators
20%
Chlorella
16%
flames
16%
water
15%
gas turbines
12%
ethyl alcohol
12%
ignition
12%
learning
11%
atmospheric pressure
11%
evaporation
10%
inlet temperature
10%
lipids
10%
flash
10%
sprayers
10%
rare gases
10%
bubbles
9%
equivalence
9%
combustion efficiency
8%
cooling
8%
fragmentation
7%
collisions
6%
vacuum
6%
heating
6%
Leidenfrost phenomenon
6%
destruction
6%
calcium chlorides
6%
performance
6%
heat flux
5%
cells
5%
working fluids
5%
helium
5%
oxidizers
5%
argon
5%
Earth & Environmental Sciences
liquefied natural gas
36%
engine
32%
biofuel
19%
economic analysis
16%
desalination
15%
compressor
14%
hydrogen
14%
diesel engine
14%
energy utilization
13%
waste heat
13%
ship
13%
vessel
12%
oil
12%
energy technology
12%
argon
11%
methanol
10%
energy
10%
fuel cell
9%
seawater
9%
learning
8%
ammonia
8%
friction
8%
combustion
8%
services
7%
economics
7%
cost
6%
energy crop
6%
entropy
6%
fluid
5%
evaluation
5%
