Optimization and modeling of carbohydrate production in microalgae for use as feedstock in bioethanol fermentation

Billriz E. Condor; Mark Daniel G. de Luna; Ralf Ruffel M. Abarca; Yu-Han Chang; Yoong Kit Leong; Chun-Yen Chen; Po-Ting Chen; Duu-Jong Lee; Jo-Shu Chang

doi:10.1002/er.7709

Author(s)

Billriz E. Condor
Mark Daniel G. de Luna
Ralf Ruffel M. Abarca
Yu-Han Chang
Yoong Kit Leong
Chun-Yen Chen
Po-Ting Chen
Jo-Shu Chang

Related Research Unit(s)

Department of Mechanical Engineering

Detail(s)

Original language	English
Pages (from-to)	19300-19312
Number of pages	13
Journal / Publication	International Journal of Energy Research
Volume	46
Issue number	13
Online published	9 Feb 2022
Publication status	Published - 25 Oct 2022

Link(s)

DOI	DOI https://doi.org/10.1002/er.7709 Final Published version
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Link to Scopus	https://www.scopus.com/record/display.uri?eid=2-s2.0-85124765500&origin=recordpage
Permanent Link	https://scholars.cityu.edu.hk/en/publications/publication(51c98ad6-37f5-43be-a650-32136129f6e3).html

Abstract

Microalgal biofuels have been long considered as potentially clean and sustainable alternatives to conventional fossil fuels. In this study, several parameters, including light intensity, initial nitrogen concentration, and nitrogen starvation duration were investigated for their effects on biomass production and carbohydrate accumulation of Chlorella vulgaris FSP-E by using two well-established modeling and optimization methods, namely response surface methodology (RSM) and artificial neural networks (ANN). RSM with central composite design (CCD) revealed that all investigated parameters and their interactions were significant (P <.01) to microalgal carbohydrate accumulation. Both RSM and ANN showed excellent performance in predicting the carbohydrate content of microalgae biomass with a high correlation coefficient (R²) of 0.9873 and 0.9959, respectively. Microalgal biomass with 59.53% carbohydrate content was obtained under optimized conditions. The carbohydrate-rich biomass was further used as feedstock for bioethanol fermentation, achieving a maximum productivity of 7.44 g L⁻¹ h⁻¹.

Research Area(s)

artificial neural network, bioethanol, carbohydrates, central composite design, microalgae, response surface methodology

Citation Format(s)

[ RIS ] [ BibTeX ]

Optimization and modeling of carbohydrate production in microalgae for use as feedstock in bioethanol fermentation. / Condor, Billriz E.; de Luna, Mark Daniel G.; Abarca, Ralf Ruffel M. et al.
In: International Journal of Energy Research, Vol. 46, No. 13, 25.10.2022, p. 19300-19312.

Research output: Journal Publications and Reviews (RGC: 21, 22, 62) › 21_Publication in refereed journal › peer-review

Condor, BE, de Luna, MDG, Abarca, RRM, Chang, Y-H, Leong, YK, Chen, C-Y, Chen, P-T, Lee, D-J & Chang, J-S 2022, 'Optimization and modeling of carbohydrate production in microalgae for use as feedstock in bioethanol fermentation', International Journal of Energy Research, vol. 46, no. 13, pp. 19300-19312. https://doi.org/10.1002/er.7709

Condor, B. E., de Luna, M. D. G., Abarca, R. R. M., Chang, Y-H., Leong, Y. K., Chen, C-Y., Chen, P-T., Lee, D-J., & Chang, J-S. (2022). Optimization and modeling of carbohydrate production in microalgae for use as feedstock in bioethanol fermentation. International Journal of Energy Research, 46(13), 19300-19312. Advance online publication. https://doi.org/10.1002/er.7709

Condor BE, de Luna MDG, Abarca RRM, Chang Y-H, Leong YK, Chen C-Y et al. Optimization and modeling of carbohydrate production in microalgae for use as feedstock in bioethanol fermentation. International Journal of Energy Research. 2022 Oct 25;46(13):19300-19312. Epub 2022 Feb 9. doi: 10.1002/er.7709

Condor, Billriz E. ; de Luna, Mark Daniel G. ; Abarca, Ralf Ruffel M. et al. / Optimization and modeling of carbohydrate production in microalgae for use as feedstock in bioethanol fermentation. In: International Journal of Energy Research. 2022 ; Vol. 46, No. 13. pp. 19300-19312.