Evaluation, applicability and optimization of advanced oxidation process for pretreatment of rice straw and its effect on cellulose digestibility

Rice straw, a renewable feedstock, is recalcitrant and its degree of polymerization makes pretreatment obligatory for subsequent bioconversion. The present study explores an advanced oxidation process i.e. Alkaline Wet Air Oxidation (AWAO) as a pretreatment for rice straw and scrutinizes the effect...

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Bibliographic Details
Published inRenewable energy Vol. 120; pp. 88 - 97
Main Authors Morone, Amruta, Sharma, Ganesh, Sharma, Abhinav, Chakrabarti, Tapan, Pandey, R.A.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2018
Subjects
Alkaline wet air oxidation
FT-IR
Response surface methodology
Rice straw
Saccharification
SEM
ECC
Alkaline wet air oxidation
TPC
Rice straw
FT-IR
Saccharification
DM
LCB
FPU
Response surface methodology
RSM
CBU
SEM
AWAO
HPLC
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Summary:Rice straw, a renewable feedstock, is recalcitrant and its degree of polymerization makes pretreatment obligatory for subsequent bioconversion. The present study explores an advanced oxidation process i.e. Alkaline Wet Air Oxidation (AWAO) as a pretreatment for rice straw and scrutinizes the effect of operation parameters on cellulose recovery, hemicellulose solubilization and lignin removal through Response Surface Methodology (RSM). AWAO resulted in 68–90% cellulose recovery, 67–87% hemicellulose solubilization and 32–66% lignin removal while generating limited inhibitors. AWAO caused oxidative delignification, hemicellulose deacetylation and cleavage of carbohydrate-lignin linkages as revealed by FT-IR, thereby improving cellulose accessibility indicated by 42–89% enzymatic cellulose convertibility (%ECC) or % cellulose conversion. The findings of the present study indicate minimization of chemical input and absence of potent inhibitors in the liquor which collectively implies reduction in freshwater requirements, minimization of waste generation and its treatment cost. •Optimization and effect of process parameters during AWAO of rice straw is evaluated.•169 °C, 4 bar, 18 min was obtained as optimum condition for AWAO of rice straw.•AWAO of rice straw showed absence of potent inhibitors i.e. furfural & 5-HMF.•AWAO led to structural breakdown & improved digestibility evidenced by FT-IR and hydrolysis.•The potential of AWAO for rice straw is assessed to minimize utilities & waste generation.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2017.12.074