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Year 2017, Volume: 1 Issue: 2, 20 - 30, 01.12.2017

Abstract

Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology

Year 2017, Volume: 1 Issue: 2, 20 - 30, 01.12.2017

Abstract

Bioenergy is a sort of renewable energy source, such as bioenergy,
bioethanol, biogas or bioethanol, and it has widespread application in the
world. The main purpose of this work is to optimize the physicochemical
processes of sulfuric acid and ultrasound + sulfuric acid pretreatment
application to get more energy per unit mass from the corncob. In order to
optimize the best reaction conditions, a statistical experimental design method
which is Box Behnken was used. The parameters such as acid concentration,
temperature, reaction time, ultrasound power were selected as the factors to be
optimized. The solid concentration was fixed at 1% and the particle mesh size
was fixed at 0.2. In acid pretreatment, the highest total sugar concentration
according to the statistical software model is 5.05 g/L in 4.74% acid
concentration, 100 °C temperature and 117 min reaction time. If the concentration
of reducing sugar is desired to be maximum in the acid pretreatment, a
concentration of 5% acid, 80°C temperature and a reaction time of 180 minutes
can be obtained. In ultrasound supported acid pretreatment application, while
total sugar concentration rise up to 22%, reduced sugar concentration increased
up to 70%. Finally it could be said that ultrasound assisted acid pretreatment
has much more effective than the solely acid pretreatment.

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Details

Subjects Environmental Sciences, Environmental Engineering
Journal Section Articles
Authors

Ece Ümmü Deveci

Çağdaş Gönen 0000-0002-8554-8125

Publication Date December 1, 2017
Submission Date July 13, 2017
Published in Issue Year 2017 Volume: 1 Issue: 2

Cite

APA Deveci, E. Ü., & Gönen, Ç. (2017). Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology. Eurasian Journal of Environmental Research, 1(2), 20-30.
AMA Deveci EÜ, Gönen Ç. Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology. EJERE. December 2017;1(2):20-30.
Chicago Deveci, Ece Ümmü, and Çağdaş Gönen. “Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology”. Eurasian Journal of Environmental Research 1, no. 2 (December 2017): 20-30.
EndNote Deveci EÜ, Gönen Ç (December 1, 2017) Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology. Eurasian Journal of Environmental Research 1 2 20–30.
IEEE E. Ü. Deveci and Ç. Gönen, “Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology”, EJERE, vol. 1, no. 2, pp. 20–30, 2017.
ISNAD Deveci, Ece Ümmü - Gönen, Çağdaş. “Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology”. Eurasian Journal of Environmental Research 1/2 (December 2017), 20-30.
JAMA Deveci EÜ, Gönen Ç. Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology. EJERE. 2017;1:20–30.
MLA Deveci, Ece Ümmü and Çağdaş Gönen. “Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology”. Eurasian Journal of Environmental Research, vol. 1, no. 2, 2017, pp. 20-30.
Vancouver Deveci EÜ, Gönen Ç. Comperatively Investigation Pretreatments of H2SO4 and Ultrasound Effect for Corncob to Increase Available Bioenergy Potential by Response Surface Methodology. EJERE. 2017;1(2):20-3.

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