Sequential dark and photo fermentation hydrogen production from hydrolyzed corn stover: A pilot test using 11?m3 reactor
Journal
Bioresource Technology
Journal Volume
253
Pages
382-386
Date Issued
2018
Author(s)
Abstract
Pilot tests of sequential dark and photo fermentation H2 production were for the first time conducted in a 11 m3 reactor (3 m3 for dark and 8 m3 for photo compartments). A combined solar and light-emitting diode illumination system and a thermal controlling system was installed and tested. With dark fermentation unit maintained at pH 4.5 and 35 ¢XC and photo fermentation unit at pH 7.0 and 30 ¢XC, the overall biogas production rate using hydrolyzed corn stover as substrate reached 87.8 ¡Ó 3.8 m3/d with 68% H2 content, contributed by dark unit at 7.5 m3-H2/m3-d and by photo unit at 4.7 m3/m3-d. Large variation was noted for H2 production rate in different compartments of the tested units, revealing the adverse effects of poor mixing, washout, and other inhomogeneity associated with large reactor operations. ? 2018 Elsevier Ltd
Subjects
Biohydrogen
Continuous operation
Corn stover
Reactor design
Sequential dark and photo fermentation
SDGs
Other Subjects
Fermentation; Hydrolysis; Substrates; Bio-hydrogen; Continuous operation; Corn stover; Photo fermentation; Reactor designs; Hydrogen production; hydrogen; mineral; biofuel; biogas; bioreactor; design; fermentation; hydrogen; hydrolysis; inhomogeneity; Article; darkness; fermentation; hydrolysis; illumination; pH; priority journal; reactor design; maize; Zea mays; Biofuels; Fermentation; Hydrogen; Zea mays
Type
journal article