Phenomenological determination of mass transfer parameters of oil extraction from grape biomass waste

Phenomenological determination of mass transfer parameters of oil extraction from grape biomass waste

Grape seeds are one of the by-products of the grape processing industry and, if not appropriately treated, can cause serious environmental problems. However, this biomass residue is a source of oil with nutritional, cosmetic and pharmaceutical applications. This work aimed at evaluating the effect o...

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Bibliographic Details
Published in:Journal of cleaner production Vol. 176; pp. 130 - 139
Main Authors: Lopes de Menezes, Maraísa, Johann, Gracielle, Diório, Alexandre, Pereira, Nehemias Curvelo, da Silva, Edson Antonio
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2018
Subjects:
By-product valorization
Drying
Mathematical modeling
Soxhlet
Ultrasound
Yield
Yield
Mathematical modeling
Soxhlet
By-product valorization
Ultrasound
Drying
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Summary:Grape seeds are one of the by-products of the grape processing industry and, if not appropriately treated, can cause serious environmental problems. However, this biomass residue is a source of oil with nutritional, cosmetic and pharmaceutical applications. This work aimed at evaluating the effect of the drying temperature of grape seeds on the oil yield. The oil was obtained using different solvents in the Soxhlet and ultrasound extraction techniques. The yield was high at elevated temperatures, when using dichloromethane, ethyl acetate and hexane. The highest yield obtained using the Soxhlet extraction was 17.99%, and the highest yield obtained using the ultrasound extraction was 12.90%. In order to describe the extraction process, a phenomenological mathematical model was developed. The model was validated in the conditions of the highest and lowest drying temperatures. The values of the mean relative errors between the experimental values and the values predicted by the model were 4.27% and 8.68% for the Soxhlet and the ultrasound extraction, respectively. Thus, as the model satisfactorily described the extraction process, a routine to simulate the commercial scale extraction was also developed. •An alternative utilization of a grape by-product is proposed.•The kinetics of grape seed oil extraction was mathematically modeled.•The effect of the drying temperature of grape seeds on the oil yield was analyzed.•The mass transfer coefficients can be used in optimization and control.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2017.12.128