序批式反应器中硝化污泥的沉降性能及动力学
Settleability and kinetics of a nitrifying sludge in a sequencing batch reactor.
作者信息
Texier A-C, Gomez J
机构信息
Universidad Autónoma Metropolitana-Iztapalapa, Div. CBS, Departamento de Biotecnología, Av. San Rafael Atlixco 186, Col. Vicentina, CP 09340, México D.F.
出版信息
Can J Microbiol. 2004 Nov;50(11):943-9. doi: 10.1139/w04-078.
A physiological study of a nitrifying sludge was carried out in a sequencing batch reactor (SBR). Pseudo steady-state nitrification conditions were obtained with an ammonium removal efficiency of 99% +/- 1% and 98% +/- 2% conversion of NH4+-N to NO3 - -N. The rate of biomass production was negligible (1.3 +/- 0.1 mg microbial protein-N.L(-1).d(-1)). The sludge presented good settling properties with sludge volume index values lower than 20 mL.g(-1) and an exopolymeric protein/carbohydrate ratio of 0.53 +/- 0.34. Kinetic results indicated that the nitrifying behavior of the sludge changed with the number of cycles. After 22 cycles, a decrease in the specific rate of NO3- -N production coupled with an increase in the NO2- -N accumulation were observed. These results showed that the activity of the nitrite oxidizing bacteria decreased at a longer operation time. Ammonia oxidizing bacteria were found to exhibit the best stability. After 4 months of operation, the specific rates of NH4+-N consumption and NO3- -N production were 1.72 NH4+-N per microbial protein-N per hour (g.g(-1).h(-1)) and 0.54 NO3- -N per microbial protein-N per hour (g.g(-1).h(-1)), respectively.
在序批式反应器(SBR)中对硝化污泥进行了生理学研究。获得了准稳态硝化条件,氨去除效率为99%±1%,NH4+-N到NO3--N的转化率为98%±2%。生物质产量速率可忽略不计(1.3±0.1 mg微生物蛋白-N·L-1·d-1)。该污泥具有良好的沉降性能,污泥体积指数值低于20 mL·g-1,胞外聚合物蛋白/碳水化合物比为0.53±0.34。动力学结果表明,污泥的硝化行为随循环次数而变化。22个循环后,观察到NO3--N产生的比速率下降,同时NO2--N积累增加。这些结果表明,在较长的运行时间下,亚硝酸盐氧化细菌的活性降低。发现氨氧化细菌表现出最佳的稳定性。运行4个月后,NH4+-N消耗和NO3--N产生的比速率分别为每小时每微生物蛋白-N 1.72 NH4+-N(g·g-1·h-1)和每小时每微生物蛋白-N 0.54 NO3--N(g·g-1·h-1)。
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