Synergistic maximization of the carbohydrate output and lignin processability by combinatorial pretreatment

Zhi Hua Liu, Michelle L. Olson, Somnath Shinde, Xin Wang, Naijia Hao, Chang Geun Yoo, Samarthya Bhagia, John R. Dunlap, Yunqiao Pu, Katy C. Kao, Arthur J. Ragauskas, Mingjie Jin, Joshua S. Yuan

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

Lignocellulosic biorefineries have gained much attention worldwide as a potential solution to the challenges of energy demand and global climate change. However, the industrial implementation of biorefineries has been hindered by low fermentable sugar yields and low lignin processability. Combinatorial pretreatments with a low holding temperature were investigated in an effort to synergistically improve the carbohydrate output and lignin processability from corn stover. Upon combinatorial pretreatment with 1% H2SO4 for 30 min followed by 1% NaOH for 60 min at 120 °C, glucan and xylan conversion increased by 11.2% and 8.3% respectively relative to single pretreatment. This combinational pretreatment removed the amorphous portion, disrupted the rigid structure, and increased the water holding capacity of corn stover, thus increasing the hydrolysis performance. With whole fractionation by combinatorial pretreatment, glucose and xylose yields were 88.4% and 72.6%, respectively, representing increases of 10.0% and 8.1%. The lignin yield was 19.7% in the solid residue and 77.6% in the liquid stream, which increased by 33.4%. When grown in fed-batch fermentation mode, a record level of polyhydroxyalkanoate (PHA) concentration (1.0 g l-1) was obtained using lignin as a carbon source by Pseudomonas putida KT2440. Lignin characterization results showed that combinatorial pretreatment increased the G- and H-lignin content, reduced the β-β and β-O-4 groups, and fractionated more aromatic monomers, thus facilitating lignin processability into PHA. These results highlighted the use of combinational pretreatment at a low holding temperature as a means to synergistically maximize the carbohydrate output and lignin processability, which provides a unique set of features to improve the biorefining performance.

Original languageEnglish
Title of host publicationInternational Congress on Energy 2017 - Topical Conference at the 2017 AIChE Annual Meeting
PublisherAIChE
Pages1002-1018
Number of pages17
ISBN (Electronic)9781510857766
StatePublished - 2017
EventInternational Congress on Energy 2017 - Topical Conference at the 2017 AIChE Annual Meeting - Minneapolis, United States
Duration: Oct 29 2017Nov 3 2017

Publication series

NameInternational Congress on Energy 2017 - Topical Conference at the 2017 AIChE Annual Meeting
Volume2

Conference

ConferenceInternational Congress on Energy 2017 - Topical Conference at the 2017 AIChE Annual Meeting
Country/TerritoryUnited States
CityMinneapolis
Period10/29/1711/3/17

Funding

The work was supported financially by the U.S. DOE (Department of Energy) EERE (Energy Efficiency and Renewable Energy) BETO (Bioenergy Technology Office) (DE-EE0007104 and DE-EE0006112).

FundersFunder number
U.S. Department of Energy
Office of Energy Efficiency and Renewable Energy
Bioenergy Technologies OfficeDE-EE0006112, DE-EE0007104

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