Comparative study of bioethanol production from bagasse pith by Pichia stipitis in free cell system and immobilized electrosprayed micro-beads: SSF and combined hydrolysates fermentation

[Display omitted] Biofuels production from biomass are receiving special attention due to the availability of raw materials, suitable conversion yield and renewability. The primary objective of this study was comparison of bioethanol productivity from bagasse pith by free and immobilized Pichia stip...

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Published inSustainable energy technologies and assessments Vol. 54; p. 102855
Main Authors Partovinia, Ali, Salimi koochi, Maryam, Talaeian, Mohammad, Rasooly Garmaroody, Esmaeil
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2022
Subjects
Acid hydrolysis
Bioethanol
Cell immobilization
Enzymatic hydrolysis
SSF process
Acid hydrolysis
Bioethanol
SSF process
Enzymatic hydrolysis
Cell immobilization
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Summary:[Display omitted] Biofuels production from biomass are receiving special attention due to the availability of raw materials, suitable conversion yield and renewability. The primary objective of this study was comparison of bioethanol productivity from bagasse pith by free and immobilized Pichia stipitis. Alginate micro-beads at various sizes fabricated by electrospray technique. At the first stage, bioethanol production using free cells in two processes including fermentation of combined acid and enzymatic hydrolysates and simultaneous saccharification and fermentation (SSF) was optimized. In fermentation of combined hydrolysates, maximum production equal to 9.53 and 12.68 g/L was observed by free and immobilized cells, respectively at cell concentration 6 %, portion of acid hydrolysate 40 % and total sugar concentration 50 %. Besides, maximum production in SSF equal to 9.93 and 10.62 g/L was obtained by free and immobilized cells, respectively at 6 % cell, 4 g solid and enzyme content of 50 FPU/g solid. However, in SSF fermentation, the beads size had no significant effect on ethanol production while in combined hydrolysates fermentation, bioethanol production considerably affected by the beads size and 13.9 g/L ethanol was obtained in minimum beads size. Additionally, long-term stability of beads was examined in repeated-batch cultures, showing effective bioethanol production up to five reuse cycles.
ISSN:2213-1388
DOI:10.1016/j.seta.2022.102855