摘要
为探究出有效的硝化细菌规模化快速富集方法,使用工业级生物反应器完成了硝化细菌的快速富集培养。从数据结果和高通量结果确定24~27 d为最佳经济取泥期,污泥浓度3000~4000 mg·L^-1为最佳细菌增长控制浓度,稳定运行阶段单日产泥量为0.3 kg·(m^3·d)^-1。对比和分析活性污泥及整个培养过程中污泥群落在不同水平上的变化,发现较短时间即可实现功能菌筛选及产出。证明了该工业级生物反应器对硝化细菌规模化快速富集培养并稳定产泥方法的可行性。为包埋固定化技术实现规模化应用在菌源制备方面提供了技术路线。通过硝化细菌培养实验探究,优化了培养周期,解析了菌群演变规律。
To explore an effective method of rapid enrichment of nitrifying bacteria,the industrial bioreactor was used to complete the rapid enrichment of nitrifying bacteria.From the data results and high throughput results,24—27 d is the best economic sludge extraction period,and sludge concentration 3000—4000 mg·L^-1 is the best bacterial growth control concentration,and the daily sludge output in stable operation stage is 0.3 kg·(m^3·d)^-1.Comparing and analyzing the changes of activated sludge and sludge community in different levels in the whole culture process,it is found that the screening and production of functional bacteria can be realized in a short time.It is proved that the industrial bioreactor is feasible for the rapid enrichment and cultivation of nitrifying bacteria on a large scale and stable mud production.It provides a technical route for the large-scale application of embedding and immobilization technology in the preparation of bacterial sources.Through the exploration of nitrifying bacteria cultivation experiments,the cultivation cycle was optimized,and the evolution of bacteria was analyzed.
作者
刘宗跃
杨宏
王少伦
王佳伟
LIU Zongyue;YANG Hong;WANG Shaolun;WANG Jiawei(Key Laboratory of Beijing for Water Quality Science and Water Environment Recovery Engineering,Beijing University of Technology,Beijing 100124,China)
出处
《化工学报》
EI
CAS
CSCD
北大核心
2020年第8期3722-3729,共8页
CIESC Journal
基金
中央引导地方科技发展专项(Z161100004516015)。
关键词
硝化细菌
富集培养
AOB
生物反应器
种群平衡
固定化
nitrifying bacteria
enrichment culture
AOB
bioreactor
population balance
immobilization