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291.
292.
金属膜生物反应器处理生活污水膜污染的影响因素 总被引:8,自引:7,他引:1
采用浸没式平板金属膜生物反应器处理模拟生活污水,考察好氧与缺氧/好氧(anoxic/oxic, A/O) 2种运行模式下ρ(MLSS)和污泥粒径分布对膜过滤性能的影响及膜过滤阻力的组成. 结果表明,对于好氧膜生物反应器,存在一个能获得良好膜过滤性能的ρ(MLSS)范围; 好氧模式下膜过滤阻力主要为滤饼层阻力,且滤饼层能通过在线药洗或机械清洗较好地去除,系统在膜通量为0.80~1.00 m3/(m2·d)下未进行离线药洗连续运行115 d. A/O模式下膜过滤阻力主要为内部阻力; A/O循环导致污泥破碎解体,产生大量微小粒子,在膜孔内形成吸附和堵塞,使膜过滤性能急剧下降,为维持系统运行,A/O阶段将膜通量从1.00 m3/(m2·d)降至0.50 m3/(m2·d),并进行了15次膜清洗. 相似文献
293.
Kang XIAO Ying XU Shuai LIANG Ting LEI Jianyu SUN Xianghua WEN Hongxun ZHANG Chunsheng CHEN Xia HUANG 《Frontiers of Environmental Science & Engineering》2014,8(6):805-819
China has been the forerunner of large-scale membrane bioreactor (MBR) application. Since the first large-scale MBR (≥ 10 000 m^3·d^-1) was put into operation in 2006, the engineering implementation of MBR in China has attained tremendous development. This paper outlines the commercial application of MBR since 2006 and provides a variety of engineering statistical data, covering the fields of municipal wastewater, industrial wastewater, and polluted surface water treatment. The total treatment capacity of MBRs reached 1× 10^6 m^3·d^-1 in 2010, and has currently exceeded 4.5 × 10^6 m^3·d^-1 with -75% of which pertaining to municipal wastewater treatment. The anaerobic/anoxic/aerobie-MBR and its derivative processes have been the most popular in the large-scale municipal application, with the process features and typical ranges of parameters also presented in this paper. For the treatment of various types of industrial wastewater, the configurations of the MBR-based processes are delineated with representative engineering cases. In view of the significance of the cost issue, statistics of capital and operating costs are also provided, including cost structure and energy composition. With continuous stimulation from the environmental stress, political propulsion, and market demand in China, the total treatment capacity is expected to reach 7.5 × 10^6 m^3·d^-1 by 2015 and a further expansion of the market is foreseeable in the next five years. However, MBR application is facing several challenges, such as the relatively high energy consumption. Judging MBR features and seeking suitable application areas should be of importance for the long-term development of this technology. 相似文献
294.
为了考察投加颗粒活性炭(GAC)对膜生物反应器(MBR)运行过程和处理效果的影响,研究了MBR和GAC-MBR透膜压差、膜通量的变化情况和脱氮性能,并采用ASM1模型对2个反应器进行数学模拟.结果表明,MBR和GAC-MBR的运行周期分别为75,150h,说明GAC的加入能够显著减缓MBR膜污染的速度,延长MBR的运行周期.MBR和GAC-MBR氨氮浓度分别为0.5,6mg/L;硝氮浓度分别为4.5,2mg/L;总氮浓度分别为5,10mg/L,出水COD均低于20mg/L,出水能符合《城镇污水处理厂污染物排放标准(GB 18918-2002)》中的一级A标准.采用ASM1进行工艺数学模拟,模拟出水与实际测量值基本吻合,2个反应器中主要微生物为异养菌和氨氧化菌,异养菌在MBR和GAC-MBR中的质量分数分别为95.5%和97.7%;好氧氨氧化菌分别为4.4%和2.3%,说明投加颗粒活性炭能有效的缓解膜污染,并对污染物具有良好的处理效果. 相似文献
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296.
研究了兼氧型MBR工艺中,当溶解氧控制在0.1~3.0 mg/L时,兼性厌氧菌和厌氧菌所占比例达80%。实验进水COD浓度为60~600 mg/L,COD去除率平均达93%;MLVSS浓度一直保持稳定,平均值为11 090 mg/L,而无机灰分浓度逐渐积累,实验开始时为3 107 mg/L,实验结束时达5 830 mg/L。结果表明,兼氧型MBR工艺可实现污泥自消化,不排放有机性污泥。兼氧型MBR工艺还对膜组件有一定自清洁作用,运行周期可达4个月。实验证明,兼氧型MBR工艺具有处理效率高、不排放有机污泥以及减轻膜污染的特点,是一种创新性的污水处理技术。 相似文献
297.
UASB-MBR组合工艺处理模拟黄连素废水 总被引:1,自引:0,他引:1
采用升流式厌氧污泥床-膜生物反应器(UASB-MBR)组合工艺处理模拟黄连素废水,模拟废水中有机污染物由葡萄糖和黄连素配制,以葡萄糖作为初级能源物质,通过微生物协同降解作用去除废水中的黄连素.在水力停留时间(HRT)为24 h,进水ρ(CODCr),ρ(NH4+-N)和ρ(黄连素)分别为1 717~4 393,91.8~158.7和64.4~276.8 mg/L,废水中黄连素的ρ(CODCr)贡献率为7.5%~25.0%的条件下,组合工艺可实现ρ(CODCr),ρ(NH4+-N)和ρ(黄连素)的去除率分别为92.5%~95.9%,67.0%~98.9%和99%以上,废水中黄连素主要通过UASB去除,去除率为95.2%~98.9%.在进水CODCr负荷为0.54~1.88 kg/(m3·d),黄连素负荷为0.71~12.42 g/(m3·d)的条件下,MBR可保证出水ρ(CODCr),ρ(黄连素)和ρ(NH4+-N)分别低于50,1.0和2.0 mg/L;随着MBR进水ρ(黄连素)升至3.45~12.42 mg/L,在黄连素的微生物毒性胁迫作用下,MBR中污泥呈由分散态向聚集态的转变. 相似文献
298.
应用A/O-MBR处理实际生活污水,考察了不同溶解氧(DO)条件下,微生物群落结构与其处理效果的对应关系.结果表明,DO浓度在0.2~4.0mg/L对COD去除效果无明显影响,COD平均去除率均在90%以上.DO浓度变化对NH4+-N去除影响较大,DO浓度下降到0.2mg/L时,NH4+-N平均去除率由99%下降到65%.通过PCR-DGGE分析,较高DO条件下(4.0,2.0mg/L)的总细菌微生物群落多样性高于较低DO条件(0.5,0.2mg/L),但其群落结构变化与与反应器的处理效果对应关系不明显;氨氧化菌的群落结构变化较明显,且在不同的DO条件下起主要作用的氨氧化菌的菌属不同,其群落变化与反应器的NH4+-N去除效果相对应,DO为2.0,0.5mg/L时氨氧化菌群落结构比较相似,此时反应系统的脱氮效果也比较好. 相似文献
299.
Xia HUANG Kang XIAO Yuexiao SHEN 《Frontiers of Environmental Science & Engineering》2010,4(3):245-271
Since the introduction of the membrane bioreactor (MBR) in China in the early 1990s, remarkable progress has been achieved on the research and application of this technology. China has now become one of the most active fields in the world in this regard. This review outlines the development of MBR-based processes in China and their performance of treating municipal and industrial wastewaters. Since membrane fouling is a critical operational problem with MBR processes, this paper also proposes updated understanding of fouling mechanisms and strategies of fouling control, which are mainly compiled from publications of Chinese researchers. As for the commercial application of MBR in the country, the latest statistics of large-scale MBR plants (>10000 m3·d−1) are provided, and the growth trend of total treatment capacity as well as its driving force is analyzed. 相似文献
300.