Bioethanol from hydrolyzed Spirulina (Arthrospira platensis) biomass using ethanologenic bacteria

Bioethanol from hydrolyzed Spirulina (Arthrospira platensis) biomass using ethanologenic bacteria

Photosynthetic microorganisms are considered excellent feedstock for biofuel production in developing biomass production technologies. A study was conducted to evaluate ethanol production with the sequential enzymatic saccharification and fermentation of Arthrospira platensis ( Spirulina ) biomass w...

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Bibliographic Details
Published in:Bioresources and bioprocessing Vol. 7; no. 1; pp. 1 - 9
Main Authors: Werlang, Eliana B., Julich, Jennifer, Muller, Maria V. G., de Farias Neves, Fabio, Sierra-Ibarra, Estefanía, Martinez, Alfredo, Schneider, Rosana de C. de S.
Format: Journal Article
Language:English
Published: Singapore Springer Singapore 12-05-2020
Springer Nature B.V
SpringerOpen
Subjects:
A. platensis
Arthrospira platensis
Bacteria
Biochemical Engineering
Bioethanol
Biofuels
Biomass
Carbohydrates
Chemistry
Chemistry and Materials Science
E coli
Environmental Engineering/Biotechnology
Enzymatic saccharification
Escherichia coli
Ethanol
Fermentation
Glucose
Industrial and Production Engineering
Microorganisms
Monosaccharides
Photosynthesis
Productivity
Saccharification
Slurries
Spirulina
Enzymatic saccharification
Bioethanol
Biomass
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Summary:Photosynthetic microorganisms are considered excellent feedstock for biofuel production in developing biomass production technologies. A study was conducted to evaluate ethanol production with the sequential enzymatic saccharification and fermentation of Arthrospira platensis ( Spirulina ) biomass with the metabolically engineered Escherichia coli strain MS04. A. platensis was cultivated semicontinuously in an open raceway pond, and the carbohydrate content was determined to be as high as 40%. The enzymatic saccharification was designed to release the maximum amount of glucose. After 40 h of enzymatic saccharification, 27 g L −1 of monosaccharides was obtained. These slurries were fermented with ethanologenic bacteria, achieving 12.7 g L −1 ethanol after 9 h of fermentation, which corresponds to 92% conversion yield of the glucose content in the hydrolysate, 0.13 g of ethanol per 1 g of Spirulina biomass and a volumetric productivity of 1.4 g of ethanol L −1  h −1 . Therefore, we conclude that it is possible, in a short time, to obtain a high ethanol yield corresponding to 160 L per ton of dry biomass with a high productivity.
ISSN:2197-4365
2197-4365
DOI:10.1186/s40643-020-00315-9