Improving enzymatic hydrolysis of brewer spent grain with nonthermal plasma

Rajeev Ravindran; Chaitanya Sarangapani; Swarna Jaiswal; Peng Lu; P. J. Cullen; Paula Bourke; Amit K. Jaiswal

doi:10.1016/j.biortech.2019.03.071

Improving enzymatic hydrolysis of brewer spent grain with nonthermal plasma

Rajeev Ravindran
, Chaitanya Sarangapani
, Swarna Jaiswal
, Peng Lu
, P. J. Cullen
, Paula Bourke
, Amit K. Jaiswal

Research output: Contribution to journal › Article › peer-review

Abstract

In this study, a new pre-treatment method based on novel non-thermal plasma technology was developed to improve the enzymatic hydrolysis of brewer's spent grain (BSG) and subsequent bioethanol production. A submerged dielectric barrier discharge plasma reactor system was applied for this purpose. Pre-treatments were performed by taking into account variables including; voltages (22 kV, 25 kV and 28 kV), solvent (acid, alkali and water) and time (5, 10, 15 min). The resulting treated biomass was subjected to enzymatic hydrolysis. A 2.14-fold increase in yield of the reducing sugar was achieved post hydrolysis when the biomass was treated in water for 10 min at a voltage setting of 28 kV (162.90 mg/g of BSG) compared to control (75.94 mg/g of BSG). This research suggests that subjecting lignocellulose to plasma discharges can enhance the efficiency of enzymatic hydrolysis. A high ethanol titre was also obtained upon fermentation of the hydrolysate (25.062 g/l).

Original language	English
Pages (from-to)	520-524
Number of pages	5
Journal	Bioresource Technology
Volume	282
DOIs	https://doi.org/10.1016/j.biortech.2019.03.071
Publication status	Published - Jun 2019

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Atmospheric plasma, bioethanol production
Biomass pretreatment
Brewer's spent grain
Lignocellulose

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10.1016/j.biortech.2019.03.071

https://arrow.tudublin.ie/schfsehart/434Licence: CC BY-NC-SA

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title = "Improving enzymatic hydrolysis of brewer spent grain with nonthermal plasma",

abstract = "In this study, a new pre-treatment method based on novel non-thermal plasma technology was developed to improve the enzymatic hydrolysis of brewer's spent grain (BSG) and subsequent bioethanol production. A submerged dielectric barrier discharge plasma reactor system was applied for this purpose. Pre-treatments were performed by taking into account variables including; voltages (22 kV, 25 kV and 28 kV), solvent (acid, alkali and water) and time (5, 10, 15 min). The resulting treated biomass was subjected to enzymatic hydrolysis. A 2.14-fold increase in yield of the reducing sugar was achieved post hydrolysis when the biomass was treated in water for 10 min at a voltage setting of 28 kV (162.90 mg/g of BSG) compared to control (75.94 mg/g of BSG). This research suggests that subjecting lignocellulose to plasma discharges can enhance the efficiency of enzymatic hydrolysis. A high ethanol titre was also obtained upon fermentation of the hydrolysate (25.062 g/l).",

keywords = "Atmospheric plasma, bioethanol production, Biomass pretreatment, Brewer's spent grain, Lignocellulose",

author = "Rajeev Ravindran and Chaitanya Sarangapani and Swarna Jaiswal and Peng Lu and Cullen, \{P. J.\} and Paula Bourke and Jaiswal, \{Amit K.\}",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Ltd",

year = "2019",

month = jun,

doi = "10.1016/j.biortech.2019.03.071",

language = "English",

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pages = "520--524",

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T1 - Improving enzymatic hydrolysis of brewer spent grain with nonthermal plasma

AU - Ravindran, Rajeev

AU - Sarangapani, Chaitanya

AU - Jaiswal, Swarna

AU - Lu, Peng

AU - Cullen, P. J.

AU - Bourke, Paula

AU - Jaiswal, Amit K.

PY - 2019/6

Y1 - 2019/6

N2 - In this study, a new pre-treatment method based on novel non-thermal plasma technology was developed to improve the enzymatic hydrolysis of brewer's spent grain (BSG) and subsequent bioethanol production. A submerged dielectric barrier discharge plasma reactor system was applied for this purpose. Pre-treatments were performed by taking into account variables including; voltages (22 kV, 25 kV and 28 kV), solvent (acid, alkali and water) and time (5, 10, 15 min). The resulting treated biomass was subjected to enzymatic hydrolysis. A 2.14-fold increase in yield of the reducing sugar was achieved post hydrolysis when the biomass was treated in water for 10 min at a voltage setting of 28 kV (162.90 mg/g of BSG) compared to control (75.94 mg/g of BSG). This research suggests that subjecting lignocellulose to plasma discharges can enhance the efficiency of enzymatic hydrolysis. A high ethanol titre was also obtained upon fermentation of the hydrolysate (25.062 g/l).

AB - In this study, a new pre-treatment method based on novel non-thermal plasma technology was developed to improve the enzymatic hydrolysis of brewer's spent grain (BSG) and subsequent bioethanol production. A submerged dielectric barrier discharge plasma reactor system was applied for this purpose. Pre-treatments were performed by taking into account variables including; voltages (22 kV, 25 kV and 28 kV), solvent (acid, alkali and water) and time (5, 10, 15 min). The resulting treated biomass was subjected to enzymatic hydrolysis. A 2.14-fold increase in yield of the reducing sugar was achieved post hydrolysis when the biomass was treated in water for 10 min at a voltage setting of 28 kV (162.90 mg/g of BSG) compared to control (75.94 mg/g of BSG). This research suggests that subjecting lignocellulose to plasma discharges can enhance the efficiency of enzymatic hydrolysis. A high ethanol titre was also obtained upon fermentation of the hydrolysate (25.062 g/l).

KW - Atmospheric plasma, bioethanol production

KW - Biomass pretreatment

KW - Brewer's spent grain

KW - Lignocellulose

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DO - 10.1016/j.biortech.2019.03.071

M3 - Article

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AN - SCOPUS:85063045397

SN - 0960-8524

VL - 282

SP - 520

EP - 524

JO - Bioresource Technology

JF - Bioresource Technology

ER -

Improving enzymatic hydrolysis of brewer spent grain with nonthermal plasma

Abstract

UN SDGs

Keywords

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