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Fungal pretreatment enhances hydrogen production via thermophilic fermentation of cornstalk

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  • Cheng, Xi-Yu
  • Liu, Chun-Zhao

Abstract

A promising fungal pretreatment method was developed for enhancing hydrogen production via thermophilic fermentation of raw cornstalk mixed with the pretreated cornstalk by Trichoderma reesei Rut C-30. In comparison with mesophilic hydrogen fermentation at 35°C, thermophilic hydrogen fermentation at 55°C gave higher hydrogen production from the mixed cornstalk because higher cellulase activity under thermophilic condition was favorable to lignocellulose hydrolysis. When the pretreated cornstalk was mixed with the raw cornstalk at an optimal blending ratio of 1:5, the cumulative hydrogen volume reached the maximum level of 194.9mL, which was 209% of that obtained in direct fermentation of raw cornstalk. The present results indicated that the fungal pretreatment had a great potential to enhance the bioconversion efficiency of lignocellulosic waste to renewable hydrogen energy.

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  • Cheng, Xi-Yu & Liu, Chun-Zhao, 2012. "Fungal pretreatment enhances hydrogen production via thermophilic fermentation of cornstalk," Applied Energy, Elsevier, vol. 91(1), pages 1-6.
    • Handle: RePEc:eee:appene:v:91:y:2012:i:1:p:1-6
    DOI: 10.1016/j.apenergy.2011.09.014
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    1. Prabakar, Desika & Manimudi, Varshini T. & Suvetha K, Subha & Sampath, Swetha & Mahapatra, Durga Madhab & Rajendran, Karthik & Pugazhendhi, Arivalagan, 2018. "Advanced biohydrogen production using pretreated industrial waste: Outlook and prospects," Renewable and Sustainable Energy Reviews, Elsevier, vol. 96(C), pages 306-324.
    2. Mustafa, Ahmed M. & Poulsen, Tjalfe G. & Sheng, Kuichuan, 2016. "Fungal pretreatment of rice straw with Pleurotus ostreatus and Trichoderma reesei to enhance methane production under solid-state anaerobic digestion," Applied Energy, Elsevier, vol. 180(C), pages 661-671.
    3. Karim, Ahasanul & Islam, M. Amirul & Mishra, Puranjan & Yousuf, Abu & Faizal, Che Ku Mohammad & Khan, Md. Maksudur Rahman, 2021. "Technical difficulties of mixed culture driven waste biomass-based biohydrogen production: Sustainability of current pretreatment techniques and future prospective," Renewable and Sustainable Energy Reviews, Elsevier, vol. 151(C).
    4. Shirkavand, Ehsan & Baroutian, Saeid & Gapes, Daniel J. & Young, Brent R., 2016. "Combination of fungal and physicochemical processes for lignocellulosic biomass pretreatment – A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 54(C), pages 217-234.
    5. Hu, Zhen-Hu & Yue, Zhen-Bo & Yu, Han-Qing & Liu, Shao-Yang & Harada, Hideki & Li, Yu-You, 2012. "Mechanisms of microwave irradiation pretreatment for enhancing anaerobic digestion of cattail by rumen microorganisms," Applied Energy, Elsevier, vol. 93(C), pages 229-236.
    6. Xia, Ao & Cheng, Jun & Ding, Lingkan & Lin, Richen & Song, Wenlu & Zhou, Junhu & Cen, Kefa, 2014. "Enhancement of energy production efficiency from mixed biomass of Chlorella pyrenoidosa and cassava starch through combined hydrogen fermentation and methanogenesis," Applied Energy, Elsevier, vol. 120(C), pages 23-30.
    7. Anu, & Kumar, Anil & Rapoport, Alexander & Kunze, Gotthard & Kumar, Sanjeev & Singh, Davender & Singh, Bijender, 2020. "Multifarious pretreatment strategies for the lignocellulosic substrates for the generation of renewable and sustainable biofuels: A review," Renewable Energy, Elsevier, vol. 160(C), pages 1228-1252.
    8. He, Yan-Rong & Yan, Fang-Fang & Yu, Han-Qing & Yuan, Shi-Jie & Tong, Zhong-Hua & Sheng, Guo-Ping, 2014. "Hydrogen production in a light-driven photoelectrochemical cell," Applied Energy, Elsevier, vol. 113(C), pages 164-168.
    9. Elsamadony, M. & Tawfik, A. & Suzuki, M., 2015. "Surfactant-enhanced biohydrogen production from organic fraction of municipal solid waste (OFMSW) via dry anaerobic digestion," Applied Energy, Elsevier, vol. 149(C), pages 272-282.
    10. Liu, Xianhua & Hao, Miaoqing & Feng, Mengnan & Zhang, Lin & Zhao, Yong & Du, Xiwen & Wang, Guangyi, 2013. "A One-compartment direct glucose alkaline fuel cell with methyl viologen as electron mediator," Applied Energy, Elsevier, vol. 106(C), pages 176-183.
    11. Xia, Ao & Cheng, Jun & Ding, Lingkan & Lin, Richen & Song, Wenlu & Su, Huibo & Zhou, Junhu & Cen, Kefa, 2015. "Substrate consumption and hydrogen production via co-fermentation of monomers derived from carbohydrates and proteins in biomass wastes," Applied Energy, Elsevier, vol. 139(C), pages 9-16.

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