Engineering
Corn Stover
49%
Selling Price
40%
Life Cycle Analysis
37%
Fossil Fuel
34%
Greenhouse Gas
32%
Bio-Oil
31%
Hydrothermal Liquefaction
28%
Renewables
21%
Renewable Diesel
21%
Fast Pyrolysis
21%
Bioconversion
18%
Cellulosic Ethanol
18%
Internal Rate of Return
18%
Market Price
18%
Antiknock Rating
18%
Boiling Point
18%
Polyolefin
18%
Single Stream
18%
Low Density Poly-Ethylene
18%
Extrusion Process
18%
Phase Composition
18%
Diesel Fuel
18%
Biofuel
18%
Marine Applications
18%
Fungal Fermentation
18%
Heavy Fuel Oil
18%
Cerevisiae
18%
Carbon Dioxide Capture
18%
Natural Gas
13%
Biorefineries
12%
Distillate
12%
Point Number
12%
Melt Extrusion
12%
Extruded Filament
12%
Melting Point
12%
Economic Feasibility
12%
Conductive
11%
Hydrolysate
9%
Bioreactor
9%
Hydrothermal Liquefaction Process
9%
Energy Content
9%
Pichia Stipitis
9%
Pentose
9%
Lignocellulosic Ethanol Production
9%
Product Yield
8%
Oil Price
8%
Alternative Fuel
8%
Lifecycle
8%
Low-Temperature
7%
Cell Mass
6%
Chemical Engineering
Techno-economic Analysis
100%
Fast Pyrolysis
46%
Hydrotreating
37%
Transportation Fuels
37%
Carbon Dioxide
26%
Pyrolysis
24%
Liquid Transportation Fuels
18%
Biochemical Reactor
18%
Monoterpene
18%
Rare Earth Element
18%
Phosphoric Acid
18%
Sludge
18%
Butadiene
18%
Carbon Dioxide Capture
18%
Oxide Catalysts
18%
Catalyst Lifetime
18%
Butene
15%
Hydrotreating Catalyst
14%
Atmospheric Aerosol
12%
Pretreated Corn Stover
12%
Fatty Acids
12%
Precious Metal
9%
Biomass Fast Pyrolysis
9%
Natural Gas Demand
9%
Space Velocity
9%
Fast Pyrolysis Oil
9%
Hydrocracking
6%