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排序方式: 共有1353条查询结果,搜索用时 218 毫秒
111.
Ramin Nabizadeh Alireza Mesdaghinia 《Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)》2006,81(7):1209-1217
Biofilm systems have been extensively used for treating different types of wastewater. Difficulty in determination of microbial mass in fixed‐film reactors has been always the greatest problem in evaluating effects of loading rates on the microbial population in such reactors. For this reason, the effect of operating parameters such as organic loadings on the available microbial mass in the system and solids retention time (SRT) have not been discussed in detail. In this study an innovative methodology was developed to simulate the quantity of microbial mass in an aerated submerged fixed‐film reactor (ASFFR) reactor. After determination of kinetic parameters, a dynamic model was developed using STELLA, popular dynamic modeling software, to simulate the microbial mass in the reactor at run time. The pilot plant study was performed with two different surface media and at different loading rates from 2.37 to 19.56 g m?2 d?1. Furthermore, the effect of different organic loadings on the accumulation of microbial mass and SRT have been studied and the relevant mathematical relationships were presented. This method makes the evaluation of biofilm system simple and practical without taking samples to quantify microbial mass in reactors. Copyright © 2006 Society of Chemical Industry 相似文献
112.
Hossein Nikakhtari Gordon A Hill 《Journal of chemical technology and biotechnology (Oxford, Oxfordshire : 1986)》2006,81(6):1029-1038
An external loop airlift bioreactor with a small amount (99% porosity) of stainless steel mesh packing inserted in the riser section was used for bioremediation of a phenol‐polluted air stream. The packing enhanced volatile organic chemical and oxygen mass transfer rates and provided a large surface area for cell immobilization. Using a pure strain of Pseudomonas putida, fed‐batch and continuous runs at three different dilution rates were completed with phenol in the polluted air as the only source of growth substrate. 100% phenol removal was achieved at phenol loading rates up to 33 120 mg h?1 m?3 using only one‐third of the column, superior to any previously reported biodegradation rates of phenol‐polluted air with 100% efficiency. A mathematical model has been developed and is shown to accurately predict the transient and steady‐state data. Copyright © 2006 Society of Chemical Industry 相似文献
113.
Biofilm adhesion to metals (copper, aluminium and brass) was studied at two different velocities and pH values of 7 and 9. Both bacteria and metals showed negative surface charges at those values of pH, which tends to slow down adhesion. Film densities increased with the fluid velocity and were also affected by the pH and by the growth rate of the bacteria. Long duration tests based on heat transfer measurements were run at five different fluid velocities and at pH = 7, showing in general an asymptotic behaviour and a control of deposition by adhesion and growth phenomena. 相似文献
114.
为研究丁香酚对解淀粉芽孢杆菌DY1a生物膜的抑制作用及成膜早期界面黏附聚集能力的影响,分析了不同质量浓度的丁香酚对生物膜形成、生物膜表面微观结构、膜内活菌数及生物膜基质多糖和蛋白质含量的影响,并评价其对成熟生物膜的清除能力,通过细菌运动能力实验、细胞表面疏水性、细胞表面Zeta电位及细胞自聚集能力,综合分析丁香酚对生物膜形成早期界面黏附聚集能力的影响。结果表明:丁香酚对解淀粉芽孢杆菌的最低生物膜抑制质量浓度(MBIC)为1.500mg/mL,MBIC的丁香酚对成熟生物膜清除率为28.85%。添加1/2 MBIC、1/4 MBIC的丁香酚培养基气液界面形成的生物膜较为单薄,表面较为光滑平整,生物膜内活菌数显著降低。丁香酚对腐败菌泳动能力抑制率为22.16%~100.00%,对丛集能力的抑制率为43.86%~97.50%,使细胞表面疏水性、细胞表面负Zeta电位和自聚集率均降低。此外,丁香酚显著抑制了腐败菌胞外多糖和蛋白质合成。丁香酚对芽孢杆菌生物膜的抑制作用主要是通过抑制细菌运动能力,降低细胞表面的疏水性、自聚集性,从而干扰早期菌体在成膜界面上的黏附能力,并通过抑制胞外聚合物组分的合成分泌延迟生物膜的形成和成熟。丁香酚可作为抑制腐败解淀粉芽孢杆菌气液界面生物膜形成的潜在抗生物膜剂。 相似文献
115.
乳酸菌生物膜具有黏附性、抗逆性以及抗菌活性等多种物理特性和生理功能,被广泛应用于改善食品质构以及食品的生物保鲜中。乳酸菌生物膜的形成需经历附着、形成、成熟、老化脱落和重新附着5个阶段,其形成受到群体感应系统的调控。群体感应系统(quorum sensing system,QS)是细菌中广泛存在的一种基因表达调控系统,该系统通过信号分子靶向调控相关基因的表达,从而调控细菌的生理功能。LuxS/AI-2型QS是调控乳酸菌益生特性的主要群体感应系统。明悉乳酸菌的LuxS/AI-2型QS及其调控生物膜形成的机制,对于乳酸菌在食品工业中的进一步应用至关重要。重点介绍了乳酸菌生物膜的形成过程,以及LuxS/AI-2型QS调控乳酸菌生物膜形成的5个调控元件,即信号分子AI-2(autoinducer-2)、关键调控基因(luxS、tuf、fba、gap)、关键调控蛋白(LuxS、LacI、AraC、PadR以及Rbs家族蛋白)、信号分子AI-2的可能受体蛋白(LuxP、LsrB、RbsB和含有dCACHE结构域的受体蛋白)以及关键代谢路径的最新研究进展;总结了信号分子AI-2调控乳酸菌生物膜形成的可能分子机制,以及信号分子AI-2受体蛋白的筛选策略。希望为深入了解LuxS/AI-2型QS调控乳酸菌生物膜的形成提供理论指导。 相似文献
116.
Abstract: Escherichia coli O157:H7 contamination of leafy green vegetables is an ongoing concern for consumers. Biofilm-associated pathogens are relatively resistant to chemical treatments, but little is known about their response to irradiation. Leaves of Romaine lettuce and baby spinach were dip inoculated with E. coli O157:H7 and stored at 4 °C for various times (0, 24, 48, 72 h) to allow biofilms to form. After each time, leaves were treated with either a 3-min wash with a sodium hypochlorite solution (0, 300, or 600 ppm) or increasing doses of irradiation (0, 0.25, 0.5, 0.75, or 1 kGy). Viable bacteria were recovered and enumerated. Chlorine washes were generally only moderately effective, and resulted in maximal reductions of 1.3 log CFU/g for baby spinach and 1.8 log CFU/g for Romaine. Increasing time in storage prior to chemical treatment had no effect on spinach, and had an inconsistent effect on 600 ppm applied to Romaine. Allowing time for formation of biofilm-like aggregations reduced the efficacy of irradiation. D10 values (the dose required for a 1 log reduction) significantly increased with increasing storage time, up to 48 h postinoculation. From 0 h of storage, D10 increased from 0.19 kGy to a maximum of 0.40 to 0.43 kGy for Romaine and 0.52 to 0.54 kGy for spinach. SEM showed developing biofilms on both types of leaves during storage. Bacterial colonization of the stomata was extensive on spinach, but not on Romaine. These results indicate that the protection of bacteria on the leaf surface by biofilm formation and stomatal colonization can reduce the antimicrobial efficacy of irradiation on leafy green vegetables. Practical Application: Before incorporating irradiation into the overall GMP/GHP chain, a packer or processor of leafy green vegetables must determine at what stage of processing and shipping the irradiation should take place. As a penetrating process, irradiation is best applied as a postpackaging intervention. Time in refrigerated storage between packaging and processing may alter the antimicrobial efficacy of irradiation. Irradiation on a commercial scale should include efforts to minimize the time delay between final packaging and irradiation of leafy vegetables. 相似文献
117.
The objective of this study was to evaluate biofilm formation on polyamide reverse osmosis (RO) whey concentration membranes. Biofilms were observed with scanning electron and fluorescence microscopy. For scanning electron microscopy, pieces of 6-, 12-, and 14-mo-old membranes were allowed to air dry at room temperature (22°C) for 24 h followed by sputter coating with a 5-nm layer of gold and microscopic observations. Scanning electron microscopy images revealed that the hydrophilic layer, used to prevent membrane plugging, was not evenly distributed on the surface. Although this hydrophilic layer seemed to prevent the attachment of proteins, it supported biofilm formation. Three different structures of multispecies biofilm were observed on the retentate side of the membrane: 1) a mono layer, 2) a 3-dimensional structure of a dense matrix of extracellular polymeric substances where different types of bacterial cells were embedded, and 3) cell aggregates. In some of the biofilms, a smooth layer (shell) covered cell aggregates. In the 6-mo-old membranes, part of the shell layer was broken off. Biofilms as observed on the RO membrane were described as having a hill-and-valley type of structure, with hills showing a mushroom-like appearance and valleys comprising dense matrices of extracellular polymers with embedded bacterial cells. Fluorescence microscopy showed live cells on the surface of the biofilm. It is concluded that both cells in the deep layers of biofilm and surface cells may resist cleaning and sanitation. The extent of biofilm formation and the presence of live cells on RO membranes after regular clean in place cycles indicate the need for a more effective cleaning regimen customized for dairy separation systems. 相似文献
118.
Nitritation performance and biofilm development of co- and counter-diffusion biofilm reactors: Modeling and experimental comparison 总被引:1,自引:0,他引:1
Rongchang Wang Akihiko Terada Barth F. Smets Mogens Henze Jianfu Zhao 《Water research》2009,43(10):2699-2709
A comparative study was conducted on the start-up performance and biofilm development in two different biofilm reactors with aim of obtaining partial nitritation. The reactors were both operated under oxygen limited conditions, but differed in geometry. While substrates (O2, NH3) co-diffused in one geometry, they counter-diffused in the other. Mathematical simulations of these two geometries were implemented in two 1-D multispecies biofilm models using the AQUASIM software. Sensitivity analysis results showed that the oxygen mass transfer coefficient (Ki) and maximum specific growth rate of ammonia-oxidizing (AOB) and nitrite-oxidizing bacteria (NOB) were the determinant parameters in nitrogen conversion simulations. The modeling simulations demonstrated that Ki had stronger effects on nitrogen conversion at lower (0-10 m d−1) than at the higher values (>10 m d−1). The experimental results showed that the counter-diffusion biofilms developed faster and attained a larger maximum biofilm thickness than the co-diffusion biofilms. Under oxygen limited condition (DO < 0.1 mg L−1) and high pH (8.0-8.3), nitrite accumulation was triggered more significantly in co-diffusion than counter-diffusion biofilms by increasing the applied ammonia loading from 0.21 to 0.78 g NH4+-N L−1 d−1. The co- and counter-diffusion biofilms displayed very different spatial structures and population distributions after 120 days of operation. AOB were dominant throughout the biofilm depth in co-diffusion biofilms, while the counter-diffusion biofilms presented a stratified structure with an abundance of AOB and NOB at the base and putative heterotrophs at the surface of the biofilm, respectively. 相似文献
119.
120.