Engineering & Materials Science
Water gas shift
100%
Recovery
94%
Steam reforming
88%
Hydrogen production
88%
Ammonia
78%
Ethanol
73%
Membranes
61%
Solvent extraction
51%
Tin oxides
50%
Purification
49%
Leaching
44%
Etching
39%
Wastewater
39%
Dust
37%
Acids
36%
Zinc oxide
36%
Temperature
34%
Hydrogen
31%
Oxides
31%
Copper
29%
Catalysts
28%
Decomposition
26%
Flow rate
23%
Geometry
22%
Steam
22%
Gases
21%
Zinc
19%
Sintering
17%
Zinc chloride
16%
Sulfuric acid
15%
High temperature corrosion
12%
Iron and steel plants
11%
Electric arcs
11%
Cerium
10%
Air pollution
10%
Ammonium hydroxide
10%
Phosphoric acid
10%
Iron
9%
Evaporation
9%
Furnaces
8%
Carbon monoxide
8%
Hydrogen peroxide
7%
Oils
7%
Hydrogen economy
7%
Partial pressure
7%
Alumina
7%
Carbonates
6%
Evolutionary algorithms
6%
Earth & Environmental Sciences
oxide
68%
indium
46%
etching
40%
tin
38%
purification
34%
acid
30%
zinc
29%
ammonia
29%
chloride
28%
leaching
28%
sludge
27%
dust
27%
copper
26%
wastewater
24%
removal
22%
sintering
12%
sulfuric acid
12%
hydroxide
11%
ammonium
10%
cerium
9%
iron
7%
oil
7%
sludge treatment
7%
aluminum oxide
6%
loss
6%
hydrogen peroxide
6%
profit
6%
savings
6%
leachate
5%
furnace
5%
price
5%
Chemical Compounds
Water Gas Shift Reaction
43%
Steam Reforming
41%
Etching
33%
Leaching
33%
Dust
32%
Sulfuric Acid
31%
Purification
29%
Wastewater
29%
Ammonia
28%
Copper Hydroxide
27%
Ethanol
23%
Ammonium Hydroxide
21%
Chloride
21%
Zinc Oxide
21%
Oxide
19%
Ammonium
14%
Carbonate
14%
Suspension
14%
Hydrogen Peroxide
14%
Sintering
12%
Purity
11%
Electric Arc
10%
Air Pollution
9%
Catalyst
9%
Gas
7%
Cerium
7%
Phosphoric Acid
7%
Reduction
6%
Evaporation
6%
Carbon Monoxide
6%
Time
5%