The Application of Ultrasound in the Enzymatic Hydrolysis of Switchgrass

Easson, Michael; Condon, Brian; Dien, Bruce S.; Iten, Loren B.; Slopek, Ryan; Yoshioka-Tarver, Megumi; Lambert, Allan H.; Smith, Jade

doi:10.1007/s12010-011-9349-1

Cited by 43 publications

(24 citation statements)

References 16 publications

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“…The ultrasound applied in the enzyme catalysis process accelerates the contact of the enzyme and the substrate in the reaction process. The combined effect of cavitation phenomenon, mechanical and thermal energy produced by the ultrasonic waves causes a certain degree of impact on the substrate and the enzyme molecules, which increases their contact surface area, resulting in an increased reaction rate and a faster rate of release of products [21]. Therefore, the catalysis effect of cellulase enzyme was improved, that is, the saccharification rate was increased.…”

Section: Effect Of Substrate Loadingmentioning

confidence: 99%

Intensification of enzymatic hydrolysis of waste newspaper using ultrasound for fermentable sugar production

Subhedar

Babu

Gogate

2015

Ultrasonics Sonochemistry

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An effective conversion of lignocellulose into fermentable sugars is a key step in producing bioethanol in an eco-friendly and cost effective manner. In this study, the effect of ultrasound on enzymatic hydrolysis of newspaper, a potential feedstock for bioethanol production due to its high cellulosic content, was investigated. The effect of substrate loading, enzyme loading, temperature, ultrasonic power and duty cycle on the hydrolysis has been studied. Optimum conditions for conventional enzymatic hydrolysis were substrate loading of 5% (w/v), enzyme loading of 0.14% (w/v), temperature of 323K, and under these conditions and 72h of hydrolysis, reducing sugar yield of 11.569g/L was obtained. In case of ultrasound-assisted enzymatic hydrolysis approach, optimum conditions obtained were substrate loading of 3% (w/v), enzyme loading of 0.8% (w/v), sonication power of 60W, duty cycle of 70%, hydrolysis time of 6.5h and the reducing sugar yield obtained under these conditions was 27.6g/L. Approximately 2.4 times increase in the release of reducing sugar concentration was obtained by the ultrasound-assisted enzymatic hydrolysis approach. Results indicate that there is a synergistic effect obtained from the combination of ultrasound and enzymes which lowers the diffusion-limiting barrier to enzyme/substrate binding and results in an increase in reaction rate. The experimental data were also fitted in a simple three parameter kinetic model.

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Section: Effect Of Substrate Loadingmentioning

confidence: 99%

Intensification of enzymatic hydrolysis of waste newspaper using ultrasound for fermentable sugar production

Subhedar

Babu

Gogate

2015

Ultrasonics Sonochemistry

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“…Several processing methods of plant raw materials have been developed to obtain soluble carbohydrates [1,2]: -dissolution of lignin by chemical reagents such as caustic alkalis, ammonia, chlorites, sulfur dioxide, amides, dilute and concentrated acids, which is widely used in the production of pulp and paper [3], -explosive autohydrolysis [2,4], -enzyme treatment or treatment by enzyme-producing fungus strains [5], -microwave radiation [6], -ultrasound treatment [7], -electron beam treatment [8], and -g-radiation [9].…”

Section: Processing Technologies Of Lignocellulosic Materials and Relmentioning

confidence: 99%

Mechanochemical production of lignin-containing powder fuels from biotechnical industry waste: A review

et al. 2015

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In biotechnological processing of plant raw materials, carbohydrates that are soluble and accessible for microorganisms are the only usable components. The lignin-rich part of the plant raw materials usually ends up in the waste. Lignin transferred into water suspensions cannot be used efficiently as a fuel. In this review, a new processing scheme of plant raw materials is presented, which includes mechanochemical treatment of the plant raw materials and separation of the powder product into particles of lignified and non-lignified tissues rich in lignin and cellulose, respectively. The cellulose-rich powders can then be used in biotechnological processes. Lignin-rich powder aerodynamically separated using cyclone-type apparatus can be used as a powder fuel to satisfy the needs of the main biotechnological plant in heat and steam.

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“…Easson et al [59] reported that ultrasound-induced pitting increases substrate surface area of switchgrass and affects the reaction rate and yield. The structure of sweet sorghum exposed to the ultrasound irradiation was also opened up to resemble more sponge-like structures, which could also provide higher surface areas [46].…”

Section: Morphologymentioning

confidence: 99%

“…In another study, it was found that the ultrasonic treatment of switchgrass resulted in an increase of 7.5% in releasing fermentable sugars, but 9.3% in experiments using ultrasound on switchgrass soaked in ammonium hydroxide [59]. However, the net energy balance was not favorable and further investigations on re-evaluating the design and conditions were recommended in order to improve ultrasonic treatment of lignocellulosic materials.…”

Section: Effect Of Ultrasound On Sugar Yieldmentioning

confidence: 99%

Ultrasound irradiation in the production of ethanol from biomass

Karimi

Jenkins

Stroeve

2014

Renewable and Sustainable Energy Reviews

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a b s t r a c tEthanol produced from renewable biomass, such as lignocellulosic feedstock, is one of the alternative energy resources that can be environmentally friendly. However, physical and chemical barriers caused by the close association of the main components of lignocellulosic biomass, as well as starch, hinder the hydrolysis of cellulose and hemicellulose in lignocellulose as well as amylase and amylopectin in starch to fermentable sugars. One of the main goals of pretreatment for enzymatic hydrolysis is to increase the enzyme accessibility for improving digestibility of cellulose and starch. Ultrasound irradiation applied to cellulosic materials and starch-based feedstock was found to enhance the efficiency of hydrolysis and subsequently increase the sugar yield. Prior research conducted on applying ultrasonic technology for cellulose and starch pretreatment has considered a variety of effects on physical and chemical characteristics, hydrolysis efficiency and ethanol yield. This paper reviews the application of ultrasound irradiation to cellulose and starch prior to and during hydrolysis in terms of sugar and ethanol yields. It also addresses characteristics such as accessibility, crystallinity, degree of polymerization, morphological structure, swelling power, particle size and viscosity as influenced by ultrasonic treatment.

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The Application of Ultrasound in the Enzymatic Hydrolysis of Switchgrass

Cited by 43 publications

References 16 publications

Intensification of enzymatic hydrolysis of waste newspaper using ultrasound for fermentable sugar production

Intensification of enzymatic hydrolysis of waste newspaper using ultrasound for fermentable sugar production

Mechanochemical production of lignin-containing powder fuels from biotechnical industry waste: A review

Ultrasound irradiation in the production of ethanol from biomass

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