Reuse of wheat flour liquid waste for enzymatic hydrolysis to yield glucose-derived bioethanol

N.K. Sari; I.Y. Purbasari; P.W. Anggoro; J. Jamari; A.P. Bayuseno

doi:10.1080/23311916.2022.2101229

Cogent Engineering (Dec 2022)

Reuse of wheat flour liquid waste for enzymatic hydrolysis to yield glucose-derived bioethanol

N.K. Sari,
I.Y. Purbasari,
P.W. Anggoro,
J. Jamari,
A.P. Bayuseno

Affiliations

N.K. Sari: Department of Chemical Engineering, Faculty of Technology, Universitas Pembangunan Nasional “Veteran” Jawa Timur, Jl. Rungkut Madya No. 1, Gn. Anyar, Kec. Gn. Anyar, Kota SBY, Jawa Timur 60294, Indonesia
I.Y. Purbasari: Department of Informatics, Faculty of Computer Science, Universitas Pembangunan Nasional “Veteran” Jawa Timur, Jl. Rungkut Madya No. 1, Gn. Anyar, Kec. Gn. Anyar, Kota SBY, Jawa Timur 60294, Indonesia
P.W. Anggoro: Department of Industrial Engineering, Faculty of Industrial Technology, University of Atma Jaya Yogyakarta, Jl. Babarsari 44, Yogyakarta 55281, Indonesia
J. Jamari: Department of Mechanical Engineering, University of Diponegoro, Jl. Prof. Soedarto, SH., Tembalang, Semarang 50275, Indonesia
A.P. Bayuseno: Department of Mechanical Engineering, University of Diponegoro, Jl. Prof. Soedarto, SH., Tembalang, Semarang 50275, Indonesia

DOI: https://doi.org/10.1080/23311916.2022.2101229
Journal volume & issue: Vol. 9, no. 1

Abstract

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Wheat flour liquid waste (WF-LW) is a potential biomass that is chemically pre-treated before being enzymatically hydrolyzed to produce glucose-derived bioethanol. This study investigated the effects of pH on the pretreatment process and the subsequent hydrolysis of WF-LW in the presence of amylase (AE) and maltose enzymes (ME). In the experiment, WF-LW at varying volumes from 200 to 1000 mL was treated with 5 to 25 mL of HCl and stirred for 30 minutes and at the temperature of 40°C. Impurities were removed prior to hydrolysis. Following that, a hydrolysis with an AE of 11% w/v and ME of 9% w/v resulted in a glucose content of 24.9% v/v. Moreover, 0.859 mL of HCl was added to achieve the best results, which were then optimized using SRM (surface response methodology) at a pH of 8.85 in a WF-LW volume of 1165.69 mL. The optimization of the pH and fermentation process in the presence of amylase and maltase enzymes resulted in increased glucose production and a decrease in the LW-TW treatment volume, which was 651.426 mL. These discoveries would become an appropriate approach for the subsequent fermentation process, resulting in the highest glucose levels possible.

Published in Cogent Engineering

ISSN: 2331-1916 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: https://www.tandfonline.com/journals/oaen

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