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Long-term Production Of Bioethanol In Repeated-batch Fermentation Of Microalgal Biomass Using Immobilized Saccharomyces Cerevisiae.

M. El-Dalatony, Mayur B. Kurade, R. Abou-Shanab, H. Kim, E. Salama, Byong-Hun Jeon
Published 2016 · Chemistry, Medicine

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Separate hydrolysis fermentation (SHF) and simultaneous saccharification fermentation (SSF) processes were studied for bioethanol production from microalgal biomass. SSF was selected as an efficient process to enhance the bioethanol yield through repeated-batches using immobilized yeast cells. Combined sonication and enzymatic hydrolysis of Chlamydomonas mexicana generated 10.5 and 8.48g/L of ethanol in SSF and SHF, respectively. Yeast utilized maximum portion of total reducing sugar (TRS) reaching a consumption efficiency of 91-98%. A bioethanol yield of 0.5g/g (88.2% of theoretical yield) and volumetric productivity of 0.22g/L/h was obtained after 48h of SSF. Immobilized yeast cells enabled repetitive production of ethanol for 7 cycles displaying a fermentation efficiency up to 79% for five consecutive cycles. The maximum ethanol production was 9.7g/L in 2nd-4th cycles. A total energy recovery of 85.81% was achieved from microalgal biomass in the form of bioethanol. Repeated-batch SSF demonstrated the possibility of cost-effective bioethanol production.
This paper references
Hydrogen production by anaerobic microbial communities exposed to repeated heat treatments.
T. Duangmanee (2007)
High alcohol production by repeated batch fermentation using an immobilized osmotolerant Saccharomyces cerevisiae
N. K. Sree (2000)
Enhancement of continuous fermentative bioethanol production using combined treatment of mixed microalgal biomass
Jae-Hoon Hwang (2016)
Ethanol production from sugar beet molasses by S. cerevisiae entrapped in an alginate-maize stem ground tissue matrix.
R. Razmovski (2011)
Saccharification of carbohydrates in microalgal biomass by physical, chemical and enzymatic pre-treatments as a previous step for bioethanol production
D. Hernández (2015)
Yeast Physiology and Biotechnology
G. M. Walker (1998)
Validation of an acoustic cavitation dose with hydroxyl radical production generated by inertial cavitation in pulsed mode: application to in vitro drug release from liposomes.
L. Somaglino (2011)
Life cycle assessment of algae biodiesel and its co-products
E. Gnansounou (2016)
Production of bioethanol from corn meal hydrolyzates by free and immobilized cells of Saccharomyces cerevisiae var. ellipsoideus.
S. Nikolić (2010)
King Grass: A promising material for the production of second-generation butanol
L. Gallego (2015)
Bioethanol production using carbohydrate-rich microalgae biomass as feedstock.
Shih-hsin Ho (2013)
Effect of immobilized cells in calcium alginate beads in alcoholic fermentation
J. C. Duarte (2013)
Effect of nutrient supplementation on ethanol production in different strategies of saccharification and fermentation from acid pretreated rice straw
R. C. Castro (2015)
Long-Term Production of Fuel Ethanol by Immobilized Yeast in Repeated-Batch Simultaneous Saccharification and Fermentation of Cassava
Qingguo Liu (2015)
Application of simultaneous saccharification and fermentation (SSF) from viscosity reducing of raw sweet potato for bioethanol production at laboratory, pilot and industrial scales.
L. Zhang (2011)
A comparison between SHF and SSSF processes from cardoon for ethanol production
F. Cotana (2015)
Chemical Characterization of Six Microalgae with Potential Utility for Food Application
Â. P. Matos (2016)
A comparison between simultaneous saccharification and fermentation and separate hydrolysis and fermentation using steam-pretreated corn stover
Karin Öhgren (2007)
Enhancement of fermentative bioenergy (ethanol/hydrogen) production using (ethanol/hydrogen) production using ultrasonication of Scenedesmus obliquus YSW15 cultivated in swine wastewater effluent
Jeong-A Choi (2011)
Second generation bioethanol potential from selected Malaysia's biodiversity biomasses: A review.
H. Aditiya (2016)
Alginate-loofa as carrier matrix for ethanol production.
M. Phisalaphong (2007)
Increasing ethanol productivity during xylose fermentation by cell recycling of recombinant Saccharomyces cerevisiae
C. Roca (2002)
Bioethanol production by immobilized Sacharomyces cerevisiae var. ellipsoideus cells
M. Rakin (2009)
Development and evaluation of a novel biodegradable film made from chitosan and cinnamon essential oil with low affinity toward water
S. M. Ojagh (2010)
Colorimetric Method for Determination of Sugars and Related Substances
M. DuBois (1956)
Study of flocculent yeast performance in tower reactors for bioethanol production in a continuous fermentation process with no cell recycling.
S. R. Andrietta (2008)
Ethanol Production by Fermentation Using Immobilized Cells of Saccharomyces cerevisiae in Cashew Apple Bagasse
A. Pacheco (2010)
Environmental sustainability of bioethanol production from rice straw in India: A review
R. Singh (2016)
Optimizing flocculation and drainage for microparticle systems by controlling zeta potential
T. Miyanishi (1997)
Hydrogen production by biological processes: a survey of literature
D. Das (2001)
Comparative study on ethanol production from pretreated sugarcane bagasse using immobilized Saccharomyces cerevisiae on various matrices
A. Singh (2013)
Effect of different fermentation parameters on bioethanol production from corn meal hydrolyzates by free and immobilized cells of Saccharomyces cerevisiae var. ellipsoideus
S. Nikolić (2009)
Feasibility of biological hydrogen production from organic fraction of municipal solid waste
J. Lay (1999)
Ethanol Production Using Immobilized Saccharomyces cerevisiae in Lyophilized Cellulose Gel
E. Winkelhausen (2010)
Substrate and Product Inhibition on Yeast Performance in Ethanol Fermentation
Qi Zhang (2015)
Improvement of Ethanol Fermentation of Corn Semolina Hydrolyzates with Immobilized Yeast by Medium Supplementation
S. Nikolić (2009)
Protein measurement with the Folin phenol reagent.
O. H. Lowry (1951)
Enzymatic saccharification and bioethanol production from Cynara cardunculus pretreated by steam explosion.
M. C. Fernandes (2015)
Comparison of SHF and SSF processes from steam‐exploded wheat straw for ethanol production by xylose‐fermenting and robust glucose‐fermenting Saccharomyces cerevisiae strains
E. Tomás-Pejó (2008)
Repeated-Batch Ethanol Production from Sweet Sorghum Juice by Saccharomyces cerevisiae Immobilized on Sweet Sorghum Stalks
Pongthep Ariyajaroenwong (2012)
Pretreatment of microalgal biomass for enhanced recovery/extraction of reducing sugars and proteins
M. El-Dalatony (2015)
Pore size and properties of spherical Ca-alginate biocatalysts
J. Klein (2004)
Trivalent cation stabilization of alginate gel for cell immobilization
W. Rochefort (2005)
Ethanol production by repeated batch and continuous fermentations of blackstrap molasses using immobilized yeast cells on thin-shell silk cocoons
A. Rattanapan (2011)
Ultrasonic disintegration of microalgal biomass and consequent improvement of bioaccessibility/bioavailability in microbial fermentation
Byong-Hun Jeon (2013)
Ethanol production from wheat straw by Saccharomyces cerevisiae and Scheffersomyces stipitis co-culture in batch and continuous system.
Pinar Karagöz (2014)
Production of alcohol from raw wheat flour by Amyloglucosidase and Saccharomyces cerevisiae.
Montesinos (2000)
Corrigendum to “Validation of an acoustic cavitation dose with hydroxyl radical production generated by inertial cavitation in pulsed mode: Application to in vitro drug release from liposomes” [Ultrasonics Sonochemistry 18 (2011) 577–588]
L. Somaglino (2011)
Bioethanol production from corn meal by simultaneous enzymatic saccharification and fermentation with immobilized cells of Saccharomyces cerevisiae var. ellipsoideus
S. Nikolić (2009)
Comparison of different process strategies for bioethanol production from Eucheuma cottonii: An economic study.
I. S. Tan (2016)
An α-l-fucosidase from Penicillium multicolor as a candidate enzyme for the synthesis of α (1⃗3)-linked fucosyl oligosaccharides by transglycosylation
K. Ajisaka (1998)

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Pankajkumar R. Waghmare (2018)
Cytocompatible Fabrication of Yeast Cells/Fabrics Composite Sheet for Bioethanol Production.
Bin He (2018)
Semi-continuous production of high-activity pectinases by immobilized Rhizopus oryzae using tobacco wastewater as substrate and their utilization in the hydrolysis of pectin-containing lignocellulosic biomass at high solid content.
Yuxi Zheng (2017)
Waste to bioenergy: a review on the recent conversion technologies
S. Lee (2019)
Bioprocess engineering principles of microalgal cultivation for sustainable biofuel production
B. Behera (2019)
Utilization of Microalgal Biofractions for Bioethanol, Higher Alcohols, and Biodiesel Production: A Review
M. El-Dalatony (2017)
Direct utilization of starch for heterotrophic cultivation of Chlorella pyrenoidosa by co-culture with immobilized Saccharomycopsis fibuligera
Shi-Kai Wang (2018)
Recent progress in microalgal biomass production coupled with wastewater treatment for biofuel generation
E. S. Salama (2017)
Investigation into SI engine performance characteristics and emissions fuelled with ethanol/butanol-gasoline blends
M. Mourad (2019)
Process development for the production of bioethanol from waste algal biomass of Gracilaria verrucosa.
R. Shukla (2016)
Co-fermentation of immobilized yeasts boosted bioethanol production from pretreated cotton stalk lignocellulosic biomass: Long-term investigation
Kamran Malik (2021)
Process optimization for the production of high-concentration ethanol with Scenedesmus raciborskii biomass.
Md. Asraful Alam (2019)
Technology of fermentation coupling with foam separation for improving the production of nisin using a κ-carrageenan with loofa sponges matrix and an hourglass-shaped column
Gao Yingying (2018)
Whole conversion of microalgal biomass into biofuels through successive high-throughput fermentation
M. El-Dalatony (2019)
Destressing Yeast for Higher Biofuel Yields: Can Excess Chaotropicity Be Mitigated?
D. Timson (2020)
Microalgal Biomass as an Alternative Source of Sugars for the Production of Bioethanol
María Eugenia Sanz Smachetti (2018)
Development of microalgae based biorefinery to improve its energy efficiency
D. Fózer (2019)
Tandem integration of aerobic fungal cellulase production, lignocellulose substrate saccharification and anaerobic ethanol fermentation by a modified gas lift bioreactor.
Dongsheng Xue (2020)
Third-Generation Biofuel: Algal Biofuels as a Sustainable Energy Source
Randhir S. Gajraj (2018)
Biocomponent-based microalgal transformations into biofuels during the pretreatment and fermentation process.
Geon-Soo Ha (2020)
Green technology in green macroalgal biorefineries
Meiron Zollmann (2019)
Recent development of hydrothermal liquefaction for algal biorefinery
Xiangyu Gu (2020)
Enhancement of microalgal growth and biocomponent-based transformations for improved biofuel recovery: A review.
E. Salama (2018)
Harvest of electrical energy from fermented microalgal residue using a microbial fuel cell
Y. Song (2019)
Optimization of some fermentation conditions for bioethanol production from microalgae using response surface method
S. El-Mekkawi (2019)
Heterotrophic culture of Chlorella pyrenoidosa using sucrose as the sole carbon source by co-culture with immobilized yeast.
Shi-Kai Wang (2018)
Microalgal bioenergy production under zero-waste biorefinery approach: Recent advances and future perspectives.
Sanjeev Mishra (2019)
Current trends and prospects in microalgae-based bioenergy production
Shashi Bhushan (2020)
Energy-efficient pretreatments for the enhanced conversion of microalgal biomass to biofuels.
Geon-Soo Ha (2020)
Matrices (re)loaded: Durability, viability, and fermentative capacity of yeast encapsulated in beads of different composition during long‐term fed‐batch culture
Jordan Gulli (2019)
Process Intensification of Biofuel Production from Microalgae
Saurabh M. Joshi (2018)
Rotary biofilm reactor: A new tool for long-term bioethanol production from non-sterilized beet molasses by Saccharomyces cerevisiae in repeated-batch fermentation
T. Roukas (2020)
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