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Microalgae disruption techniques for product recovery: influence of cell wall composition
Mariam Alhattab,
Azadeh Kermanshahi-Pour
,
Marianne Su Ling Brooks
Energy
Medicine
科研成果
:
期刊稿件
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探究 'Microalgae disruption techniques for product recovery: influence of cell wall composition' 的科研主题。它们共同构成独一无二的指纹。
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Keyphrases
Product Recovery
100%
Microalgae
100%
Cell Wall Composition
100%
Cell Wall Degradation
75%
Cell Wall Structure
75%
Cell Wall
50%
Microalgae Species
50%
Surfactant
25%
Energy Input
25%
Extraction Methods
25%
High Energy
25%
Energy Consumption
25%
Energy Efficient
25%
Process Economics
25%
Enzymatic Hydrolysis
25%
Autoclave
25%
Cell Disruption
25%
Microalgal Biomass
25%
High-pressure Homogenization
25%
Physical Techniques
25%
Cell Recovery
25%
Value-added Products
25%
Disruption Process
25%
Homogenization Treatment
25%
Disruption Mechanisms
25%
Bead Milling
25%
Microalgae Cells
25%
Chemically Treated
25%
High Temperature Steam
25%
Chemical Techniques
25%
Steam Treatment
25%
Biological Methods
25%
Process Sustainability
25%
Recovery Process
25%
Engineering
Microalgae
100%
Disruptions
100%
Product Recovery
100%
Energy Engineering
28%
Cell Wall Structure
28%
Microalgae Specie
28%
Extraction Process
14%
Surfactant
14%
Energy Input
14%
Autoclave
14%
Sonication
14%
Larger Quantity
14%
Recovery Process
14%
Input Quantity
14%
High-Pressure Homogenisation
14%
Microalgal Biomass
14%
Enzymatic Hydrolysis
14%
Immunology and Microbiology
Microalga
100%
Cell Wall
100%
Product Recovery
100%
Ultrasound
11%
Cell Disruption
11%
Hydrolysis
11%
Material Science
Feedstock
100%
Homogenization
50%
Surface Active Agent
50%
Enzymatic Hydrolysis
50%
Chemical Engineering
Surfactant
100%
Enzymatic Hydrolysis
100%
Food Science
Enzymatic Hydrolysis
100%