Grape pomace as an energy source for the food industry: A thermochemical and kinetic analysis

[Display omitted] •Grape pomace is a strong candidate for production of bio-chemicals and bioenergy.•Grape seeds pyrolysis produces more biochar than grape skins and stalks.•Recovered energy from grape pomace supports the concept of circular bioeconomy.•Pyrolyzers coupled to biodigesters could produ...

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Bibliographic Details
Published in:Food and bioproducts processing 2022-03, Vol.132, p.177-187
Main Authors: Madadian, Edris, Rahimi, Jamshid, Mohebbi, Mina, Simakov, David S.A.
Format: Article
Language:English
Subjects:
By products
Byproducts
Cellulose
Charcoal
Circular economy
Citrus fruits
Differential thermal analysis
Differential thermogravimetric analysis
Digesters
Energy
Energy efficiency
Energy sources
Food industry
Food sources
Food waste
Foods
Fruit juices
Fruits
Grape juice byproducts
Grapes
Hemicellulose
Industrial applications
Kinetics
Lignocellulosic biomass
Powder
Pyrolysis
Raw materials
Renewable energy
Saccharification
Seeds
Thermal decomposition
Thermal degradation
Thermogravimetric analysis
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Summary:[Display omitted] •Grape pomace is a strong candidate for production of bio-chemicals and bioenergy.•Grape seeds pyrolysis produces more biochar than grape skins and stalks.•Recovered energy from grape pomace supports the concept of circular bioeconomy.•Pyrolyzers coupled to biodigesters could produce biochar from pomace digestates.•Waste pyrolysis balances the tradeoff between residue and energy in food industry. The present study investigated the thermochemical performance of grape juice processing byproducts, namely grape pomace grits, grape pomace powder, grape seeds, and grape seed powder, using differential thermogravimetric analysis to determine kinetic parameters during thermal decomposition. Pyrolysis experiments were carried out at heating rates of 10, 20, and 30 °C to a maximum temperature of 700 °C. The mean activation energy for grape pomace powder of 29.96 kJ/mol was the most energy efficient pyrolysis among the four byproduct types. Physicochemical characterization confirmed that these pulp residues can serve as a potential feedstock for fuel and energy production. Grape seeds had a higher lignin content (49 and 52% for seeds and powder) than grape pomace (38 and 45% for grits and powder), making them an appropriate raw material for industrial applications, particularly chemical production. Moreover, their relatively high cellulose and hemicellulose contents indicate a high saccharification potential. The proposed thermal conversion technique could be used downstream from the conventional biodigesters to convert the digestates of juice processing byproducts to biochar and bioenergy. The key findings of this study target growth of sustainable circular economy in the food industry.
ISSN:0960-3085
1744-3571
DOI:10.1016/j.fbp.2022.01.006