INRA, UR050, Laboratoire de Biotechnologie de l’Environnement, Avenue des Etangs, Narbonne F-11100, France.
Bioresour Technol. 2012 Jan;104:90-9. doi: 10.1016/j.biortech.2011.10.060. Epub 2011 Oct 28.
Hydrolysates resulting from the lignocellulosic biomass pretreatment in bioethanol production may be used to produce biogas. Such hydrolysates are rich in xylose but also contain lignin polymers or oligomers as well as phenolic and furan compounds, such as syringaldehyde, vanillin, HMF, furfural. The aim of this study was to investigate the impact of these byproducts on biomethane production from xylose. The anaerobic digestion of the byproducts alone was also investigated. No inhibition of the anaerobic digestion of xylose was observed and methane was obtained from furans: 430 mL CH(4)/g of furfural and 450 mL CH(4)/g of HMF; from phenolic compounds: 453 mL CH(4)/g of syringaldehyde and 105 mL CH(4)/g of vanillin; and, to a lesser extent, from lignin polymers: from 14 to 46 mL CH(4)/g MV. The use of different natural polymers (lignosulfonates, organosolv and kraft lignins) and synthetic dehydrogenative polymers showed that higher S/G ratios and lower molecular weights in lignin polymers led to greater methane production.
在生物乙醇生产中,木质纤维素生物质预处理产生的水解产物可用于生产沼气。这些水解产物富含木糖,但也含有木质素聚合物或低聚物以及酚类和呋喃类化合物,如丁香醛、香草醛、HMF、糠醛。本研究旨在研究这些副产物对木糖生物甲烷生产的影响。还研究了单独对这些副产物进行的厌氧消化。未观察到木糖厌氧消化受到抑制,并且从呋喃中获得了甲烷:每克糠醛 430 毫升 CH(4)和每克 HMF 450 毫升 CH(4);从酚类化合物:每克丁香醛 453 毫升 CH(4)和每克香草醛 105 毫升 CH(4);以及,在较小程度上,从木质素聚合物:每克 MV 14 到 46 毫升 CH(4)。使用不同的天然聚合物(木质素磺酸盐、有机溶剂法和 kraft 木质素)和合成脱氢聚合物表明,木质素聚合物中更高的 S/G 比和更低的分子量导致更高的甲烷产量。
