Keyphrases
Chlorella Pyrenoidosa
100%
Hydrothermal Liquefaction
100%
Nutrient Recovery Efficiency
100%
Biocrude Oil
100%
Energy Recovery Efficiency
100%
Reaction Temperature
28%
Higher Heating Value
28%
Nitrogen Recovery
28%
Carbon Recovery
28%
Functional Groups
14%
Fourier Transform Infrared Spectroscopy (FT-IR)
14%
Total Solids
14%
Liquefaction Process
14%
Biocrude
14%
Biofuel
14%
Oil Yield
14%
Oil Quality
14%
Optimized Operating Conditions
14%
Retention Time
14%
Solidity Ratio
14%
Low-lipid Microalgae
14%
Response Surface Methodology
14%
NMR Analysis
14%
Heteroatomic
14%
High Boiling Point
14%
Boiling Point Distribution
14%
Microalgae Species
14%
Fast-growing
14%
Aromatic Groups
14%
GC-MS Analysis
14%
Fossil Fuels
14%
Biomass Conversion
14%
Operating Condition Effects
14%
Carbon-nitrogen
14%
Low Nitrogen
14%
Oil Samples
14%
High Carbon
14%
Overexploitation
14%
Engineering
Energy Engineering
100%
Hydrothermal Liquefaction
100%
Recovery Efficiency
100%
Crude Oil
100%
Bio-Oil
100%
High Heating Value
33%
Boundary Condition
16%
Functional Group
16%
Boiling Point
16%
Hydrothermal Liquefaction Process
16%
Biofuels
16%
Point Distribution
16%
Retention Time
16%
Gas Chromatography Mass Spectrometry
16%
Fossil Fuel
16%
Biomass Conversion
16%
Microalgae Specie
16%
Oil Sample
16%
Response Surface Methodology
16%
Aromatic Group
16%
Solid Ratio
16%
Agricultural and Biological Sciences
Chlorella pyrenoidosa
100%
Liquefaction
100%
Bio-crude
100%
Petroleum
85%
Feedstock
14%
Biofuel
14%
Microalga
14%
Fossil Fuel
14%
Boiling
14%
Response Surface Methodology
14%
Chemical Engineering
Functional Group
100%
Gas Chromatography Mass Spectrometry
100%
Biomass Conversion
100%