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高固体浓度的污水污泥与食物垃圾协同厌氧消化与单消化比较:稳定性与性能。

High-solids anaerobic co-digestion of sewage sludge and food waste in comparison with mono digestions: stability and performance.

机构信息

National Engineering Research Center for Urban Pollution Control, School of Environmental Science and Engineering, Tongji University, 1239 Siping Road, Shanghai 200092, PR China.

出版信息

Waste Manag. 2013 Feb;33(2):308-16. doi: 10.1016/j.wasman.2012.10.018. Epub 2012 Nov 21.

Abstract

System stability and performance of high-solids anaerobic co-digestion of dewatered sludge (DS) and food waste (FW) in comparison with mono digestions were investigated. System stability was improved in co-digestion systems with co-substrate acting as a diluting agent to toxic chemicals like ammonia or Na(+). For high-solids digestion of DS, the addition of FW not only improved system stability but also greatly enhanced volumetric biogas production. For high-solids digestion of FW, the addition of DS could reduce Na(+) concentration and help maintain satisfactory stability during the conversion of FW into biogas. System performances of co-digestion systems were mainly determined by the mixing ratios of DS and FW. Biogas production and volatile solids (VSs) reduction in digestion of the co-mixture of DS and FW increased linearly with higher ratios of FW. A kinetic model, which aimed to forecast the performance of co-digestion and to assist reactor design, was developed from long-term semi-continuous experiments. Maximum VS reduction for DS and FW was estimated to be 44.3% and 90.3%, respectively, and first order constant k was found to be 0.17d(-1) and 0.50 d(-1), respectively. Experimental data of co-digestion were in good conformity to the predictions of the model.

摘要

研究了与单消化相比,高固含量脱水污泥(DS)和食物垃圾(FW)的厌氧共消化的系统稳定性和性能。共底物作为稀释剂,可改善共消化系统的稳定性,以去除氨或 Na(+) 等有毒化学物质。对于 DS 的高固含量消化,FW 的添加不仅提高了系统稳定性,而且大大提高了体积沼气产量。对于 FW 的高固含量消化,DS 的添加可以降低 Na(+) 浓度,并有助于在 FW 转化为沼气的过程中保持令人满意的稳定性。共消化系统的性能主要取决于 DS 和 FW 的混合比例。DS 和 FW 的混合物消化中的沼气产量和挥发性固体(VSs)减少与 FW 的比例呈线性增加。从长期半连续实验中开发了一种旨在预测共消化性能并协助反应器设计的动力学模型。DS 和 FW 的最大 VS 减少量分别估计为 44.3%和 90.3%,发现一阶常数 k 分别为 0.17d(-1)和 0.50 d(-1)。共消化的实验数据与模型的预测非常吻合。

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