【作者】 孙巍；

【导师】 李伟光；

【作者基本信息】 哈尔滨工业大学 ， 市政工程， 2008， 硕士

【摘要】 生物活性炭作为深度处理工艺的一种有效形式对去除水中天然有机物有着重要的作用。天然有机物的去除一直是水处理中比较重要的一部分,同时也是传统给水工艺作用的主要部分。然而依靠活性炭自然形成的普通生物活性炭,其生物相较为复杂,生物降解的速率不高。所以通过人工强化技术投加优势菌群,采用人工固定化技术形成的生物增强活性炭,则具有高效、长效、运行稳定和出水无病原微生物等优点。以对原水的UV254和TOC降解率为筛选原则,从原水中筛选出9、10、14、30、37五株菌种,对其进行培养驯化得到试验所需的优势菌。对优势菌进行了形态学和生理生化初步鉴定,利用SHERLOCK?全自动微生物鉴定系统最终确定了9和10号菌株为醋酸钙不动细菌、30号菌株恶臭假单胞、14和37号菌株为短杆菌。研究了优势菌群的生物学特性包括:营养源研究;最优生长条件;优势菌群的比生长速率和世代时间;脱氢酶活性等。经过比较分析,采用吸附固定法将优势菌群固定在颗粒活性炭上。为了获得较好的固定化效果,寻求利用正交试验获得最优方案。通过研究微生物固定的一般过程和影响微生物固定的重要因素,确定出固定化正交试验的4个因素,利用摇床试验和文献分析最终确定各因素的各个水平。分别以固定在活性炭上的生物量和生物活性为评价指标获得了不同的优方案。以生物量为评价指标的优方案是:固定方式为循环4h,间歇2h、EBCT=15min、pH=3、菌液浓度为纯菌液。以细胞生物活性为固定化评价指标所得出的优方案是固定方式为循环4h,间歇2h、EBCT=60min、pH=7、菌液浓度为1%菌液。综合考虑两个指标,当固定方式为循环4h,间歇2h、空床接触时间60min、pH=3、菌液浓度为1%菌液时,生物量和生物活性两个指标都有较好的结果。对运行三个月BAC增强活性炭的上、中、下层表面进行扫描电镜观察,发现BAC增强活性炭表面不连续的分布着大量的优势菌。利用紫外-可见吸收光谱(UV-Vis)、TOC、GC-MS方法对进出水进行水质分析,BAC增强工艺对原水的处理效果比较理想。更多还原

【Abstract】 BAC—an effective form of advanced treatment, plays an important role to remove natural organic matter from water. The removal of natural organic matter is not only a more important part of water treatment, but also a major part of traditional water supply. But relying on the common biological activated carbon formed naturally by activated carbon, the biological phase is more complex, biodegradable rate is not quick. Therefore, using the technique of dominant microorganisms added by artificially intensified technology and the intensed biological activated carbon formed by artificially immobilization technology has a highly efficient, long-term, stable and running water without the advantages of pathogenic microorganisms.Based on UV254 and degradation rate of TOC of water, selected 9, 10, 14, 30, 37 five species from the raw water, get the dominant bacteria needed in experiment by cultivation and acclimation. On the base of identification of the culture and physiology characters of the dominant bacteria, Finally , we determined 9th and 10th are bacteria fixed calcium acetate, 30th is Pseudomonas putida, 14th and 37th are Brevibacterium using SHERLOCK? Microbial Identification System. The biological characteristics of dominant microorganisms were studied, including nutrition source, optimal growth conditions, specific growth rate and generation time of dominant microorganisms, dehydrogenase activity and so on.According to analysis and comparison, the adsorption method was chose for the special stains immobilized on the surface of the GAC. Application of the orthogonal test method on optimal control was studied in the test for the better effect on immobilization. Four factors that influenced the microbe immobilization had been defined by jar test and references. The biomass and biological activity as two evaluating indicators was compared by the method of orthogonal test which concluded two optimum methods. When biomass as evaluating indicators, the optimal parameters of immobilization was as following: fixed mode with 4h circle running and 2h intermission, EBCT=15min, pH=3, pure microbe. When biological activity as evaluating indicators, the optimal parameters of immobilization was as following: fixed mode with 4h circle running and 2h intermission, EBCT=60min, pH=7, 1% microbe concentration. Considered both factors, the biomass and biological activity was better when the optimal parameters for the immobilization was fixed mode with 4h circle running and 2h intermission, EBCT=60min, pH=3, 1% microbe concentration.SEM observations about the surface of upper, middle and lower layer of IBAC run 3 months showed that a large number of dominant microorganisms were discontinuous distributed on the surface of IBAC. Analyzing water quality of influent and effluent using UV-Vis, TOC, GC-MS show that IBAC was more ideal to treat with the raw water.更多还原