Preparation of Polar-Modified Styrene-Divinylbenzene Copolymer and Its Adsorption Performance for Comprehensive Utilization of Sugarcane Bagasse Dilute-Acid Hydrolysate

2019 ◽  
Vol 190 (2) ◽  
pp. 423-436 ◽  
Author(s):  
Liquan Zhang ◽  
Xuefang Chen ◽  
Hairong Zhang ◽  
Haijun Guo ◽  
Can Wang ◽  
...  
Keyword(s):  
Sugarcane Bagasse ◽  
Dilute Acid ◽  
Comprehensive Utilization ◽  
Acid Hydrolysate ◽  
Adsorption Performance ◽  
Styrene Divinylbenzene ◽  
Dilute Acid Hydrolysate

scholarly journals Simultaneous Cellulase Production, Saccharification and Detoxification Using Dilute Acid Hydrolysate of S. spontaneum with Trichoderma reesei NCIM 992 and Aspergillus niger

2011 ◽  
Vol 52 (2) ◽  
pp. 258-262 ◽  
Author(s):  
Lanka Sateesh ◽  
Adivikatla Vimala Rodhe ◽  
Shaik Naseeruddin ◽  
Kothagauni Srilekha Yadav ◽  
Yenumulagerard Prasad ◽  
...  
Keyword(s):  
Aspergillus Niger ◽  
Trichoderma Reesei ◽  
Cellulase Production ◽  
Dilute Acid ◽  
Acid Hydrolysate ◽  
Dilute Acid Hydrolysate

Fungal metabolism of fermentation inhibitors present in corn stover dilute acid hydrolysate

2008 ◽  
Vol 42 (7) ◽  
pp. 624-630 ◽  
Author(s):  
Nancy N. Nichols ◽  
Lekh N. Sharma ◽  
Richard A. Mowery ◽  
C. Kevin Chambliss ◽  
G. Peter van Walsum ◽  
...  
Keyword(s):  
Corn Stover ◽  
Dilute Acid ◽  
Fermentation Inhibitors ◽  
Fungal Metabolism ◽  
Acid Hydrolysate ◽  
Dilute Acid Hydrolysate

scholarly journals Evaluation of antioxidant activity of dilute acid hydrolysate of wheat straw during xylose production

2012 ◽  
Vol 40 ◽  
pp. 39-44 ◽  
Author(s):  
Ozlem Akpinar ◽  
Serdal Sabanci ◽  
Okan Levent ◽  
Abdulvahit Sayaslan
Keyword(s):  
Antioxidant Activity ◽  
Wheat Straw ◽  
Dilute Acid ◽  
Acid Hydrolysate ◽  
Dilute Acid Hydrolysate ◽  
Xylose Production

Xylitol production by Debaryomyces hansenii in brewery spent grain dilute-acid hydrolysate: effect of supplementation

2007 ◽  
Vol 29 (12) ◽  
pp. 1887-1891 ◽  
Author(s):  
Florbela Carvalheiro ◽  
Luís C. Duarte ◽  
Raquel Medeiros ◽  
Francisco M. Gírio
Keyword(s):  
Debaryomyces Hansenii ◽  
Xylitol Production ◽  
Dilute Acid ◽  
Acid Hydrolysate ◽  
Spent Grain ◽  
Dilute Acid Hydrolysate

Combination of dilute acid and ionic liquid pretreatments of sugarcane bagasse for glucose by enzymatic hydrolysis

2013 ◽  
Vol 48 (12) ◽  
pp. 1942-1946 ◽  
Author(s):  
Li-Qun Jiang ◽  
Zhen Fang ◽  
Xing-Kang Li ◽  
Jia Luo ◽  
Suet-Pin Fan
Keyword(s):  
Ionic Liquid ◽  
Enzymatic Hydrolysis ◽  
Sugarcane Bagasse ◽  
Dilute Acid

scholarly journals Effect of Subsequent Dilute Acid and Enzymatic Hydrolysis on Reducing Sugar Production from Sugarcane Bagasse and Spent Citronella Biomass

2016 ◽  
Vol 2016 ◽  
pp. 1-12 ◽  
Author(s):  
Robinson Timung ◽  
Narendra Naik Deshavath ◽  
Vaibhav V. Goud ◽  
Venkata V. Dasu
Keyword(s):  
Enzymatic Hydrolysis ◽  
Sugarcane Bagasse ◽  
Crystallinity Index ◽  
Sem Analysis ◽  
Reducing Sugar ◽  
Dilute Acid Pretreatment ◽  
Crystalline Cellulose ◽  
Dilute Acid ◽  
Acid Pretreatment ◽  
Hydrolysis Of

This work was aimed at investigating the effect of process parameters on dilute acid pretreatment and enzymatic hydrolysis of spent citronella biomass (after citronella oil extraction) and sugarcane bagasse on total reducing sugar (TRS) yield. In acid pretreatment, the parameters studied were acid concentration, temperature, and time. At the optimized condition (0.1 M H2SO4, 120°C, and 120 min), maximum TRS obtained was 452.27 mg·g−1and 487.50 mg·g−1for bagasse and citronella, respectively. Enzymatic hydrolysis of the pretreated biomass usingTrichoderma reesei26291 showed maximum TRS yield of 226.99 mg·g−1for citronella and 282.85 mg·g−1for bagasse at 10 FPU, 50°C, and 48 hr. The maximum crystallinity index (CI) of bagasse and citronella after acid pretreatment obtained from X-ray diffraction analysis was 64.41% and 56.18%, respectively. Decreased CI after enzymatic hydrolysis process to 37.28% and 34.16% for bagasse and citronella, respectively, revealed effective conversion of crystalline cellulose to glucose. SEM analysis of the untreated and treated biomass revealed significant hydrolysis of holocellulose and disruption of lignin.

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