Di Maria Francesco, Sordi Alessio, Cirulli Giuseppe, Gigliotti Giovanni, Massaccesi Luisa, Cucina Mirko
LAR - Dipartimento di Ingegneria - University of Perugia, Via G. Duranti 67, 06125 Perugia, Italy.
LAR - Dipartimento di Ingegneria - University of Perugia, Via G. Duranti 67, 06125 Perugia, Italy.
Waste Manag. 2014 Sep;34(9):1603-8. doi: 10.1016/j.wasman.2014.05.017. Epub 2014 Jun 7.
The co-digestion of a variable amount of fruit and vegetable waste in a waste mixed sludge digester was investigated using a pilot scale apparatus. The organic loading rate (OLR) was increased from 1.46 kg VS/m(3) day to 2.8 kg VS/m(3) day. The hydraulic retention time was reduced from 14 days to about 10 days. Specific bio-methane production increased from about 90 NL/kg VS to the maximum value of about 430 NL/kg VS when OLR was increased from 1.46 kg VS/m(3) day to 2.1 kg VS/m(3) day. A higher OLR caused an excessive reduction in the hydraulic retention time, enhancing microorganism wash out. Process stability evaluated by the total volatile fatty acids concentration (mg/l) to the alkalinity buffer capacity (eq. mg/l CaCO3) ratio (i.e. FOS/TAC) criterion was <0.1 indicating high stability for OLR <2.46 kg VS/m(3 )day. For higher OLR, FOS/TAC increased rapidly. Residual phytotoxicty of the digestate evaluated by the germination index (GI) (%) was quite constant for OLR<2.46 kg VS/m(3)day, which is lower than the 60% limit, indicating an acceptable toxicity level for crops. For OLR>2.46 kg VS/m(3) day, GI decreased rapidly. This corresponding trend between FOS/TAC and GI was further investigated by the definition of the GI ratio (GIR) parameter. Comparison between GIR and FOS/TAC suggests that GI could be a suitable criterion for evaluating process stability.
使用中试规模的装置,研究了在废混合污泥消化池中共同消化不同数量的水果和蔬菜废弃物的情况。有机负荷率(OLR)从1.46千克挥发性固体/立方米·天提高到2.8千克挥发性固体/立方米·天。水力停留时间从14天减少到约10天。当OLR从1.46千克挥发性固体/立方米·天提高到2.1千克挥发性固体/立方米·天时,单位生物甲烷产量从约90升标准状况下的甲烷/千克挥发性固体增加到最大值约430升标准状况下的甲烷/千克挥发性固体。较高的OLR导致水力停留时间过度缩短,加剧了微生物的流失。通过总挥发性脂肪酸浓度(毫克/升)与碱度缓冲容量(当量毫克/升碳酸钙)的比值(即FOS/TAC)标准评估的过程稳定性在OLR < 2.46千克挥发性固体/立方米·天时<0.1,表明稳定性较高。对于更高的OLR,FOS/TAC迅速增加。通过发芽指数(GI)(%)评估的消化液残留植物毒性在OLR < 2.46千克挥发性固体/立方米·天时相当稳定,低于60%的限值,表明对作物的毒性水平可接受。对于OLR > 2.46千克挥发性固体/立方米·天,GI迅速下降。通过定义GI比值(GIR)参数进一步研究了FOS/TAC和GI之间的这种对应趋势。GIR与FOS/TAC的比较表明,GI可能是评估过程稳定性的合适标准。
