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Hydrothermal liquefaction of chlorella pyrenoidosa in water and ethanol
J. Zhang, Z. Luo,
Y. Zhang
Agricultural and Biological Engineering
Grainger College of Engineering
Mechanical Science and Engineering
Bioengineering
National Center for Supercomputing Applications (NCSA)
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Keyphrases
Ethanol
100%
Chlorella Pyrenoidosa
100%
Hydrothermal Liquefaction
100%
Load Ratio
44%
Liquefaction Process
33%
Biocrude
33%
Processing Parameters
11%
Thermal Stability
11%
Volatile Components
11%
Acetone
11%
Product Yield
11%
Effect of Operating Parameters
11%
Bio-residues
11%
High Solid Loads
11%
Lipid Content
11%
Ethanol-water
11%
Microalga Chlorella Sp
11%
Solid Loading
11%
Initial Pressure
11%
Biofuel
11%
Biogas
11%
Engineering
Hydrothermal Liquefaction
100%
Load Ratio
66%
Hydrothermal Liquefaction Process
50%
Experimental Result
16%
Processing Parameter
16%
Microalgae
16%
Product Yield
16%
Operating Parameter
16%
Initial Pressure
16%
Measuring Range
16%
Biofuel
16%
Agricultural and Biological Sciences
Chlorella pyrenoidosa
100%
Liquefaction
100%
Bio-crude
33%
Feedstock
22%
Biofuel
11%
Microalga
11%
Material Science
Feedstock
100%
Thermal Stability
50%
Biofuel
50%
Chemical Engineering
Effect of Operating Parameters
100%