低强度声介导的厌氧颗粒体破碎对生物表面活性剂分泌菌预处理的影响：能量和质量平衡分析。

Effect of low intensity sonic mediated fragmentation of anaerobic granules on biosurfactant secreting bacterial pretreatment: Energy and mass balance analysis.

机构信息

Department of Civil Engineering, Anna University Regional Campus, Tirunelveli, Tamilnadu, India.

Department of Physics, Anna University Regional Campus, Tirunelveli, Tamilnadu, India.

出版信息

Bioresour Technol. 2019 May;279:156-165. doi: 10.1016/j.biortech.2019.01.118. Epub 2019 Jan 25.

DOI:10.1016/j.biortech.2019.01.118

PMID:30716608

Abstract

In this study, fragmentation of anaerobic granules (AG) was carried out by low intensity sonification (LIS) to release its extracellular polymeric substance (EPS). The experimental outcome of the study shows that 30 s treatment time and 60 W sonic power was effective for fragmentation of AG. The fragmented anaerobic granules were further subjected to pretreatment by biosurfactant secreting bacteria. Bacterial pretreatment achieves a maximum biogranules lysis of 20.3% and biosolids reduction of 17.1% for fragmented anaerobic granules bacterial pretreatment (FAG-BP). Whereas for bacterial pretreatment (BP) alone, it achieves 10.9% and 8.6% of biogranules lysis and biosolids reduction respectively. Exponential first order kinetic model of biomethane production data revealed greater biomethane production for FAG-BP (0.247 g COD/g COD) than BP (0.131 g COD/g COD). Cost analysis of FAG mediated bacterial pretreatment results in a net profit of 48.606 USD/Ton.

摘要

在本研究中，通过低强度超声（LIS）使厌氧颗粒（AG）破碎，以释放其胞外聚合物物质（EPS）。研究的实验结果表明，30s 的处理时间和 60W 的声功率对 AG 的破碎是有效的。破碎的厌氧颗粒进一步用分泌生物表面活性剂的细菌进行预处理。细菌预处理使破碎的厌氧颗粒的生物颗粒裂解率达到最大值 20.3%，生物固体减少 17.1%（FAG-BP）。而单独进行细菌预处理（BP）时，生物颗粒裂解率和生物固体减少率分别达到 10.9%和 8.6%。生物甲烷产生数据的指数一级动力学模型表明，FAG-BP（0.247g COD/g COD）的生物甲烷产生量大于 BP（0.131g COD/g COD）。FAG 介导的细菌预处理的成本分析导致每吨净盈利 48.606 美元。

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低强度声介导的厌氧颗粒体破碎对生物表面活性剂分泌菌预处理的影响：能量和质量平衡分析。

Effect of low intensity sonic mediated fragmentation of anaerobic granules on biosurfactant secreting bacterial pretreatment: Energy and mass balance analysis.

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