Photosynthetic hydrogen production from enzyme-hydrolyzed micro-grinded maize straws
Journal
International Journal of Hydrogen Energy
Journal Volume
41
Journal Issue
46
Pages
21665-21669
Date Issued
2016
Author(s)
Abstract
Photosynthetic bacteria can produce hydrogen from various organic substrates in the presence of illumination energy. This study produced biohydrogen from maize straws by an enriched consortium via photo-fermentation pathway. The maize straws can be utilized by the consortium as substrate only after micro-grinding and enzyme hydrolysis pretreatments. Batch tests at 30?g/L maize straw, pH 7.0, 30?¢XC, illumination intensity 2000?lx yielded 9.33?mol H2/mol glucose with illumination energy conversion rate of 13.7% and substrate-energy conversion rate of 5.3%. Equivalently, the biohydrogen productivity is about 3?mmol/g maize straw. Reaction temperature can affect hydrogen production rate but only minimally affect the delayed time. The activation energy for biohydrogen production was estimated to be 5.65?kJ/mol. ? 2016 Hydrogen Energy Publications LLC
Subjects
Enzyme hydrolysis
Hydrogen production
Micro-grinding
Straws
Temperature
SDGs
Other Subjects
Activation energy; Bacteria; Energy conversion; Enzymes; Grinding (machining); Hydrolysis; Straw; Substrates; Temperature; Bio-hydrogen production; Energy conversion rates; Enzyme hydrolysis; Hydrogen production rate; Illumination intensity; Micro-grinding; Photosynthetic bacterias; Photosynthetic hydrogen productions; Hydrogen production
Type
journal article