Nan Qi

School of Environment, Liaoning University

Yuqi Wang, Xin Zhao, Xiaoyu Han, Xiaomin Hu

Northeastern University

Lili Dong

Hainan University

Abstract

Bio-H₂ production from organic wastewater together with lignocellulose wastes not only achieved the H₂ energy recovery, but also be beneficial to carbon emission reduction and carbon neutralization. In order to obtain higher energy recoveries, promotion attempts were performed in bio-H₂ fermentation with low temperature (−80-0 ◦C)  pretreated peanut shell powder (PSP) as co-substrate. A maximum H₂ production of 109.2 mL was obtained as almost double of the sum from the same amount of untreated PSP and glucose as sole substrate. The enhancement was co-contributed by 44% from PSP supplementary, 35% from low-temperature pretreatment, and 2.8% from buffer effect and acidification, respectively, and realized through C/N balancing, PSP conversion influencing, fermentative pH buffering and time prolonging. The experimental results uncovered the co-contribution realization ways of supplementing low-temperature pretreated lignocellulose wastes in the bio-H2 fermentation system, and provided mechanism support for application potential of low-temperature pretreatment on lignocellulose wastes in cold regions.

Read the article here:   25-Characteristic and calculation on the co-contribution in the bio-H2 energy recovery enhancement with low temperature pretreated peanut shell as co-substrate.pdf