Engineering
Biofuel
85%
Bioenergy
58%
Corn Stover
51%
Lignocellulosic Biomass
50%
Pretreatment
47%
Renewable Energy
44%
Biorefineries
44%
Bio-Oil
42%
Renewables
41%
Fast Pyrolysis
40%
Pyrolysis
35%
Gasification
33%
Greenhouse Gas
33%
Aviation Fuels
32%
Biochemicals
32%
Phase Composition
30%
Metrics
30%
Fossil Fuel
30%
Syngas
28%
Selling Price
26%
Conversion Process
26%
Enzymatic Hydrolysis
24%
Life Cycle Assessment
24%
Biomass Conversion
23%
Aromatics
22%
Process Development
21%
Fuel Production
21%
Integration Platform
20%
Process Design
17%
Final Report
17%
Life Cycle Analysis
17%
Dilute Acid Pretreatment
16%
United States
16%
Biomass Gasification
15%
Methane
15%
Saccharification
14%
Lifecycle
14%
Biochemical Conversion
14%
Diesel Fuel
13%
Fractionation
13%
Ethanol Production
13%
Dilute Acid
12%
Department of Energy
12%
Biodiesel
12%
Algal Biomass
12%
Thermochemical Conversion
11%
Cellulosic Ethanol
11%
Lignocellulosics
11%
Hydrolysate
11%
Microbial
11%
Biomass Pyrolysis
11%
Gasifiers
10%
Microalgae
10%
Natural Gas
10%
Renewable Diesel
10%
Renewable Fuel
10%
Low-Temperature
10%
Engineering
9%
Hemicellulose
9%
Cellulosics
9%
Thermochemical Process
9%
Beam Mass
8%
Vaporization
8%
Indirect Liquefaction
8%
Bioprocessing
8%
Antiknock Rating
8%
Computational Fluid Dynamics
8%
Hydrothermal Liquefaction
8%
Carbon Dioxide Capture
8%
Capital Cost
8%
Carbon Dioxide Utilization
8%
Carbon Capture
8%
Hydroprocessing
7%
Carbon Dioxide Reduction
7%
Techno-Economic Assessment
7%
Fuel Technology
7%
Climatic Change
7%
Climate Change
7%
Reactor System
7%
Hydrogenation
7%
Hydrogen Production
7%
Flow Reactor
7%
Mass Balance
6%
Bioeconomy
6%
Energy Conservation
6%
Bioethanol
6%
Carbon Economy
6%
Molecular Weight
6%
Molecular Mass
6%
Experimental Result
5%
Porosity
5%
Atomic Layer Deposition
5%
Process Integration
5%
Kinetic Model
5%
Cost Reduction
5%
Alkene
5%
Development Cycle
5%
Fuel Synthesis
5%
Multiscale
5%
Cost Estimate
5%
Chemical Engineering
Pyrolysis
100%
Techno-economic Analysis
76%
Carbon Dioxide
66%
Catalytic Fast Pyrolysis
62%
Gasification
54%
Enzymatic Hydrolysis
43%
Biomass Conversion
38%
Methanol
37%
Fast Pyrolysis
31%
Fractionation
29%
Xylose
26%
Carboxylic Acid
23%
Hydrotreating
22%
Hydrodeoxygenation
21%
Catalytic Upgrading
21%
Hydrogenation
19%
Transportation Fuels
17%
Sulfuric Acid
17%
Fast Pyrolysis Oil
17%
Pretreated Corn Stover
16%
Fatty Acids
15%
Olefin
15%
Nanoparticle
15%
Titanium Dioxide
14%
Butene
13%
Zeolite Catalyst
12%
Phenol
12%
Acetic Acid
12%
Mass Spectrometry
12%
Transition Metal
10%
Aromatic Hydrocarbon
10%
Furfural
10%
Functional Group
10%
Volatile Fatty Acid
10%
Atomic Layer Deposition
10%
Pyrolysis Products
9%
Catalytic Cracking
9%
Biogas
9%
Liquid Transportation Fuels
9%
Hydrogen Production
9%
Methane
9%
Vacuum Gas Oil
8%
Polysaccharide
8%
Biomass Particle
8%
Catalyst Deactivation
8%
Separation Method
7%
Aromatic Compound
7%
Carbon Dioxide Capture
7%
Butyric Acid
7%
Chemical Kinetics Characteristics
7%
Dehydrogenation
7%
Dimer
6%
Scalability
6%
Carbon Dioxide Reduction
6%
Polyurethane
6%
Biochemical Reactor
6%
Carbon Dioxide Utilization
6%
Gas Chromatography Mass Spectrometry
6%
Fluidized Bed Reactor
6%
Solvent Extraction
6%
Lactic Acid
6%
Ethylene
6%
Catalytic Pyrolysis
6%
Fluidized Bed
5%
Oligomerization
5%
Biochar
5%
Operando
5%
Anaerobic Digestion
5%
Organic Acid
5%
Biomass to Liquid
5%
Pyrolysis Reactor
5%
Biomass Fast Pyrolysis
5%
Hydrocarbon Products
5%
Chemistry
Pyrolysis
33%
Bio-Oil
21%
Phase Composition
14%
Fast Pyrolysis
13%
formation
12%
Depolymerization
12%
Molecular Beam
9%
Carbon Dioxide
9%
Carboxylic Acid
8%
Biofuel
8%
Mass Spectrometry
8%
Chemistry
8%
Hydrodeoxygenation
7%
Deoxygenation
7%
Hydrogenation
6%
stability
6%
Phenol
5%
Titanium Dioxide
5%
Nanoparticle
5%
Methanol
5%
Biomass Pyrolysis
5%
Biomass Conversion
5%
Hydrogen
5%
Dimethyl Ether
5%