The influence of mechanical and thermal disintegration on gravitational separation of surplus sludge

A. Machnicka, E. Nowicka
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引用次数: 4

Abstract

The primary effect of sewage sludge disintegration process is the physical, chemical or biological change of their structure, which causes destruction of flocs, fragmentation of microbial cells and thus release of cell contents into the surrounding liquid. Pre-treatment of the sludge can be used for the process of thickening and dewatering of sludge. In this paper, the influence of hydrodynamic, microwave and freezing/thawing disintegration on selected properties of gravitational surplus activated sludge, were assessed. The scope of the research included the parameters characteristic of the sedimentation process, ie sludge density index (SDI), sludge volume index (SVI), sludge thickening speed (v), sludge concentration (Ci) and changes in the liquid phase of sludge chemical oxygen demand (SCOD) and turbidity. The obtained results as well as performed calculations have confirmed the impact of used disintegration in terms of improving the properties of surplus activated sludge.
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机械和热崩解对剩余污泥重力分离的影响
污泥崩解过程的主要作用是其结构发生物理、化学或生物变化,引起絮凝体的破坏,微生物细胞破碎,从而将细胞内容物释放到周围的液体中。污泥的预处理可用于污泥的浓缩和脱水过程。研究了水动力、微波和冻融崩解对重力剩余活性污泥部分特性的影响。研究范围包括沉降过程的参数特征,即污泥密度指数(SDI)、污泥体积指数(SVI)、污泥浓缩速度(v)、污泥浓度(Ci)以及污泥液相化学需氧量(SCOD)和浊度的变化。所得结果和计算结果证实了废解剂对改善剩余活性污泥性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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