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Media surface properties and the development of nitrifying biofilms in mixed cultures for wastewater treatment.

机译：废水处理的混合培养中的介质表面特性和硝化生物膜的发展。

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Plastic was tested to select biofilm support media that would enhance nitrification in the presence of heterotrophs. Eight different types (acrylonitrile butadiene styrene, nylon, polycarbonate, polyethylene, polypropylene, polytetraflouroethylene (PTFE), polyvinyl chloride and tufnol) were immersed in an aerobic fed-batch reactor receiving domestic settled wastewater. Nitrification rates did not correlate with biomass concentrations, nor surface roughness of the plastics as measured by atomic force microscopy (AFM). The maximum nitrification rate of 1.5 g/m2d1 was obtained from biofilms growing on PTFE which had the lowest surface adhesion force (8nN). Nitrification rates for the biofilms were inversely correlated with the attraction forces as measured by the AFM.

机译：测试了塑料以选择能够在异养生物存在下增强硝化作用的生物膜支持介质。将八种不同类型（丙烯腈，丁二烯，苯乙烯，尼龙，聚碳酸酯，聚乙烯，聚丙烯，聚四氟乙烯（PTFE），聚氯乙烯和丁三醇）浸入需氧分批进料反应器中，以接收生活污水。硝化率与生物质浓度不相关，也与原子力显微镜（AFM）测量的塑料表面粗糙度无关。从在最低的表面附着力（8nN）上生长在PTFE上的生物膜获得最大硝化速率1.5 g / m2d1。生物膜的硝化率与AFM测得的吸引力成反比。

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Stephenson Tom; Reid E.; Avery L. M.; Jefferson Bruce;
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年度 2013
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1. Media surface properties and the development of nitrifying biofilms in mixed cultures for wastewater treatment [J] . T. Stephenson, E. Reid, L.M. Avery Transactions of The Institution of Chemical Engineers. Process Safety and Environmental Protection, Part B . 2013,第4期

机译：废水处理混合培养中的介质表面特性和硝化生物膜的发展
2. Biofilm development, activity and the modification of carrier material surface properties in moving-bed biofilm reactors (MBBRs) for wastewater treatment [J] . Morgan-Sagastume Fernando Critical reviews in environmental science and technology . 2018,第1a6期

机译：生物膜发育，活性和载体材料表面性质在移动床生物膜反应器（MBBRS）中的载体材料表面特性进行废水处理
3. Biofilm development, activity and the modification of carrier material surface properties in moving-bed biofilm reactors (MBBRs) for wastewater treatment [J] . Morgan-Sagastume Fernando Critical reviews in environmental science and technology . 2018,第1a6期

机译：生物膜发育，活性和载体材料表面性质在移动床生物膜反应器（MBBRS）中的载体材料表面特性进行废水处理
4. Effect of biofilm and selective mixed culture on microbial fuel cell for the treatment of tempeh industrial wastewater [C] . Rita Arbianti, Tania Surya Utami, Vifki Leondo International Conference on Quality in Research . 2018

机译：生物膜和选择性混合培养对微生物燃料电池治疗Tempeh工业废水的影响
5. Development and use of microelectrodes to evaluate nitrification within chloraminated drinking water system biofilms, and the effects of phosphate as a corrosion inhibitor on nitrifying biofilm. [D] . Lee, Woo Hyoung. 2009

机译：开发和使用微电极评估氯化饮用水系统生物膜中的硝化作用，以及磷酸盐作为腐蚀抑制剂对生物膜硝化的影响。
6. Analysis of very-high surface area 3D-printed media in a moving bed biofilm reactor for wastewater treatment [O] . Gabriel Proano-Pena, Andres L. Carrano, David M. Blersch, 2020

机译：在移动床中非常高表面积3D印刷介质分析废水处理
7. Immobilization of nitrifying bacteria and its application for wastewater treatment. [O] . KIYOMI ITOH, TSUTOMU ITADANI, HIROSHI YOSIMURA, 1989

机译：硝化细菌的固定化及其对废水处理的应用。
8. Acclimation of a Mixed Culture of Microorganisms to Treat Wastewaters from the KRW Energy Systems Gasifier Process Development Unit [R] . Castaldi, F. J. 1985

机译：从KRW能源系统气化器工艺开发单元处理混合微生物培养物以处理废水

Media surface properties and the development of nitrifying biofilms in mixed cultures for wastewater treatment.

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