Fantozzi Francesco, Buratti Cinzia
University of Perugia, Biomass Research Centre (CRB), Via G. Duranti, 06125 Perugia, Italy.
Bioresour Technol. 2009 Dec;100(23):5783-9. doi: 10.1016/j.biortech.2009.06.013.
Different mixtures were digested in a single-stage, batch, mixed, laboratory scale mesophilic anaerobic digester at the Biomass Research Centre Laboratory (University of Perugia). The yield and the composition of biogas from the different substrates were evaluated and the cumulative curves were estimated. Two experimental campaigns were carried out, the first on three mixtures (chicken, pig and bovine manures), the second on animal and vegetal biomasses (chicken and cow manure, olive husk) with different inocula (rumen fluid and digested sludge). In the first campaign pig manure mixture showed the maximum biogas production (0.35 N m(3)/kg) and energy content (1.35 kWh/kg VS); in the second one the differences in produced biogas from the different inocula were analyzed: olive husk with piggery manure anaerobically digested as inoculum showed the higher biogas (0.28 N m(3)/kg VS) and methane yield (0.11 N m(3)/kg VS), corresponding to an energetic content of 1.07 kWh/kg VS. All data obtained from the laboratory scale anaerobic digester are comparable to the values in literature for several biomass and in particular for olive husk, dairy manure and chicken manure.
不同的混合物在佩鲁贾大学生物质研究中心实验室的单级、间歇式、混合式实验室规模中温厌氧消化器中进行消化。评估了不同底物产生沼气的产量和成分,并估算了累积曲线。进行了两项实验,第一项实验针对三种混合物(鸡粪、猪粪和牛粪),第二项实验针对动物和植物生物质(鸡粪和牛粪、橄榄壳),使用了不同的接种物(瘤胃液和消化污泥)。在第一项实验中,猪粪混合物的沼气产量最高(0.35 N m³/kg),能量含量最高(1.35 kWh/kg VS);在第二项实验中,分析了不同接种物产生沼气的差异:以猪粪厌氧消化物为接种物的橄榄壳产生的沼气更高(0.28 N m³/kg VS),甲烷产量更高(0.11 N m³/kg VS),对应的能量含量为1.07 kWh/kg VS。从实验室规模厌氧消化器获得的所有数据与文献中几种生物质的值相当,特别是对于橄榄壳、奶牛粪便和鸡粪。