常温下ABR反应器处理低浓度有机废水降解动力学

化工学报 ›› 2009, Vol. 60 ›› Issue (10): 2614-2620.

常温下ABR反应器处理低浓度有机废水降解动力学

苏鸿洋;夏雪芬;张亚雷;周雪飞

福建农林大学资源与环境学院;同济大学环境学院污染控制与资源化国家重点实验室;福建工程学院环境与设备工程系

出版日期:2009-10-05 发布日期:2009-10-05

Kinetics of dilute wastewater treatment with anaerobic baffled reactor at ambient temperature

SU Hongyang;XIA Xuefen;ZHANG Yalei;ZHOU Xuefei

Online:2009-10-05 Published:2009-10-05

摘要/Abstract

摘要： 本文研究了折流板厌氧反应器（ABR）在常温下处理低浓度有机废水有机污染物降解动力学方面的问题。根据对ABR反应器有机污染物降解动力学模型的研究，得出ABR处理效率与水力停留时间（HRT）、污泥浓度、分格数（m）及温度有关。小试采用葡萄糖配制的模拟生活污水进行试验，求得不同温度下减速增长的速度常数K₂值。由Arrhenius公式求得了活化能E值1.92×104 J.mol^-1，这表明本试验中温度对K₂值影响不大，从而在理论上说明在温度较低时ABR反应器仍有较好处理效果的原因。

关键词:

降解动力学, 折流板厌氧反应器, 低浓度有机废水, 环境温度

Abstract:

In this study, the characteristics and kinetics of substrate degradation in anaerobic baffled reactor (ABR) were investigated by using glucose as dilute organic wastewater.Operation conditions, such as hydraulic residence time (HRT), sludge concentration and temperature were proved to have effects on the treatment efficiency of ABR through the analysis on the kinetics of substrate degradation.Declining growth rate constant K₂was obtained in a small experimental ABR using glucose as influent, based on the experimental results at different temperatures.According to the analysis of Arrhenius relationship, temperature did not affect K₂ greatly.This is one of the reasons why comparatively good treatment efficiency may still be achieved at a lower temperatureIn the experiment, activation energy(1.92 ×10⁴ J.mol^-1) was also obtained from the Arrhenius equation.

Key words:

降解动力学, 折流板厌氧反应器, 低浓度有机废水, 环境温度

苏鸿洋, 夏雪芬, 张亚雷, 周雪飞. 常温下ABR反应器处理低浓度有机废水降解动力学 [J]. 化工学报, 2009, 60(10): 2614-2620.

SU Hongyang, XIA Xuefen, ZHANG Yalei, ZHOU Xuefei. Kinetics of dilute wastewater treatment with anaerobic baffled reactor at ambient temperature[J]. CIESC Journal, 2009, 60(10): 2614-2620.