完全混合活性污泥法中吡啶的生物降解

Biodegradation of pyridine in a completely mixed activated sludge process.

作者信息

Padoley K V, Rajvaidya A S, Subbarao T V, Pandey R A

机构信息

National Environmental Engineering Research Institute, Nehru Marg, Nagpur 440 020, India.

出版信息

Bioresour Technol. 2006 Jul;97(10):1225-36. doi: 10.1016/j.biortech.2005.05.020. Epub 2005 Aug 3.

DOI:10.1016/j.biortech.2005.05.020

PMID:16084081

Abstract

A potential bacterial culture (P1), isolated from garden soil and identified as Pseudomonas pseudoalcaligenes-KPN, was used as a starter seed to develop the biomass in a completely mixed activated sludge (CMAS) reactor and the system was evaluated for treatment of wastewater containing pyridine. The results of this study indicate that pyridine could be degraded efficiently at a loading of 0.251 kg pyridine kg MLSS(-1) d(-1) (0.156 kg TOC kg MLSS(-1) d(-1)) and at an optimal hydraulic retention time (HRT) of 24 h. Pyridine was used as the sole source of carbon and nitrogen by the biomass. Ammonia-nitrogen (NH3-N) was formed due to the metabolism of the pyridine ring. In the present investigation, the performance of CMAS with reference to pyridine biodegradation and the bio-kinetic constants for the biodegradation of pyridine, in a continuous system, were computed. The results indicate that a CMAS system inoculated with P. pseudoalcaligenes-KPN, under optimum conditions of HRT and pyridine loading, gives a yield coefficient of (Y) 0.29, decay coefficient (Kd) 0.0011 d(-1), maximum growth rate constant (mumax) 0.108 d(-1) and saturation rate constant (Ks) 5.37 mg L(-1) for pyridine.

摘要

从花园土壤中分离出一种潜在的细菌培养物（P1），经鉴定为假产碱假单胞菌-KPN，将其用作接种物，在完全混合活性污泥（CMAS）反应器中培养生物质，并对该系统处理含吡啶废水的性能进行评估。本研究结果表明，在吡啶负荷为0.251 kg吡啶·kg MLSS⁻¹·d⁻¹（0.156 kg TOC·kg MLSS⁻¹·d⁻¹）以及最佳水力停留时间（HRT）为24 h的条件下，吡啶能够被高效降解。生物质将吡啶用作唯一的碳源和氮源。由于吡啶环的代谢产生了氨氮（NH₃-N）。在本研究中，计算了连续系统中CMAS对吡啶生物降解的性能以及吡啶生物降解的生物动力学常数。结果表明，在HRT和吡啶负荷的最佳条件下，接种假产碱假单胞菌-KPN的CMAS系统的产率系数（Y）为0.29，衰减系数（Kd）为0.0011 d⁻¹，最大生长速率常数（μmₐₓ）为0.108 d⁻¹，吡啶的饱和速率常数（Ks）为5.37 mg·L⁻¹。

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完全混合活性污泥法中吡啶的生物降解

Biodegradation of pyridine in a completely mixed activated sludge process.

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