Abstract
The objective of this study was to efficiently utilize the napier grass and its silage to produce bio-hydrogen and methane by a two-stage process in batch mode. First, the production of hydrogen from a co-digestion of grass with cow dung and silage with cow dung by Clostridium butyricum Thailand Institute of Scientific and Technological Research (TISTR) 1032 was conducted. The results indicated that bio-hydrogen production by C. butyricum TISTR 1032 gave a higher hydrogen yield (HY) than without C. butyricum addition. The HY of 6.98 and 27.71 mL H2/g-Volatile solidadded (VSadded), were obtained from a co-digestion of grass with cow dung and silage with cow dung by C. butyricum, respectively. The hydrogenic effluent and solid residue left over after hydrogen fermentation were further used as substrates for methane production (Batch I). Methane yield (MY) from hydrogenic effluent of grass with cow dung and silage with cow dung were 169.87 and 141.33 mL CH4/g-CODadded (COD: chemical oxygen demand), respectively. The maximum MY of 210.10 and 177.79 mL CH4/g-VSadded, respectively, were attained from solid residues left over after bio-hydrogen production pretreated by enzyme (cellulase cocktail) and alkali (NaOH). Afterward, solid residue left over after methane production (Batch I) was used as the substrate for methane production (Batch II). A maximum MY of 370.39 and 370.99 mL CH4/g-VSadded were achieved from solid residue repeatedly pretreated by alkaline plus enzyme, respectively. The overall energy yield in the two-stage bio-hydrogen and methane production process was derived from a bio-hydrogen production, a methane production from hydrogenic effluent, methane production of pretreated solid residue (Batch I) and methane production of repeatedly pretreated solid residue (Batch II), which yielded 480.27 and 204.70 MJ/g-VSadded, respectively.
Highlights
Hydrogen is a promising alternative energy source due to its clean, renewable and environmentally-friendly characteristics
Hydrogen production from the co-digestion of grass with cow dung and silage with cow dung by C. butyricum Thailand Institute of Scientific and Technological Research (TISTR) 1032 was investigated under a mixing ratio of 3:1 g-volatile solid (VS)/g-VS
The co-digestion of grass or silage with cow dung is a good approach for two-stage hydrogen and methane production
Summary
Hydrogen is a promising alternative energy source due to its clean, renewable and environmentally-friendly characteristics. It has zero carbon emissions after its complete combustion with oxygen [1]. Hydrogen has a high energy content, 122 KJ/g-H2, which is about 2.75 times higher than that of hydrocarbon fuel [2]. In comparison to photo-hydrogen production, dark fermentation is receiving attention because it requires less energy and has a high hydrogen production rate [3,4,5]. Complex substrates are degraded to hydrogen, carbon dioxide and volatile fatty acid (VFAs), such as acetate, butyrate, propionate and ethanol Dark fermentation can utilize a wide range of substrates such as starch [6], glucose [7], waste activated sludge [8], Energies 2018, 11, 47; doi:10.3390/en11010047 www.mdpi.com/journal/energies
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