微生物在城市污水处理系统中的应用与展望

众所周知,在我们生存的环境中,微生物无时不在,无处不有;它曾经带给我们巨大的灾难,但也是我们忠诚的卫士;随着人类自身的发展,我们对它的认识也愈加科学和量化。迄今为止,我们用智慧和勇气不仅克服了绝大多数病原微生物带来的种种难题,而且运用微生物基因组学、遗传工程和现代分子生物学技术定向构建目的微生物,使之更加适合人类的需求。在水污染日益严重的今天,微生物将是我们净化自身生存空间的重要武器;尤其是在城市污水处理系统中,定向构建的基因工程菌将发挥出它巨大的潜力。     

人工湿地污水处理的应用现状及前景展望

本文分析了人工湿地系统在污水处理中的作用,叙述了人工湿地在发展中国家的应用现状及所取得的效果。人工湿地的特点适合我国国情,特别适合广大农村、中小城市的污水处理,在我国具有极其广阔的应用前景。对湿地用于污水处理方面的不足,如缺乏污水对植物影响的研究(特别是对乡土植物的研究)、缺乏对重要工艺的理解、人工湿地占地面积大等也进行了分析。     

海鞘再生的细胞学过程及其调控机制研究进展与展望

再生现象在后生动物中普遍存在,但不同物种的再生能力存在显著差别.无脊椎动物如水螅和涡虫等再生能力较强,具有部分组织或细胞即可再生出一个完整个体的能力,被称为整体再生;而脊椎动物的再生能力相对较弱,局限在某些特定器官或身体结构,被称为部分再生,如蝾螈的附肢.海鞘作为进化上介于无脊椎动物与脊椎动物之间的尾索动物,既包括具备...     

含氮有机物在污水处理过程中的生物转化机制与模型研究进展

随着市政污水处理厂的提标改造,出水总氮浓度逐渐降低,但溶解性有机氮(Dissolved Organic Nitrogen,DON)在总氮中的占比却越来越高,对含氮消毒副产物的生成和受纳水体富营养化的潜在贡献不可忽视.正因如此,近年来有关污水处理系统中DON的研究不断增加.本文重点综述了污水处理厂DON特征、生成转化规律...     

浅谈城镇污水处理工艺

随着经济的快速发展,水质污染问题也日益突出,而水是我们赖以生存和发展的源泉,治理水污染成为当务之急。城市污水是一种混合污水,如果未经处理达标便排入河流水体,必将严重污染水质,影响水生生态,降低水体的自净能力,严重时还可能导致水质恶化变臭。因此,必须对城市污水进行统一收集处理,达标后方可排入环境。     

污水处理过程中微塑料去除的现状及发展趋势北大核心CSCD

微塑料(microplastics,MPs)被发现广泛存在于海洋、陆地以及大气等生态系统中。城市污水中的大量微塑料被污水处理厂截留在活性污泥中,但仍有不计其数的微塑料颗粒“逃脱”污水处理厂,排放到自然环境中。与此同时,污水处理过程中绝大部分微塑料会转移到污泥中,伴随着活性污泥的利用过程进入土壤环境,形成微塑料的二次污染。文中基于对国内外文献的调研,对环境中微塑料的来源、分布及危害进行了概述,对活性污泥工艺过程中微塑料的处理情况以及活性污泥中残留微塑料的处理方式进行了梳理;展望了生物技术及合成生物学在活性污泥核心菌群遗传改造,赋予核心菌群微塑料降解能力方面的应用;以期为优化污水处理厂MP的降解提供参考。     

果蔬脆片加工厂污水处理方案初探

本文根据果蔬脆片工艺流程分析,建议采用生物活性污泥法为主,结合过滤、气浮等物理手段,对生产过程的污水进行有效处理,以达到国家相关排放标准.     

微生物与能源的可持续开发

微生物技术在新能源开发领域中有广阔的应用潜力,对能源的可持续发展具有重要的理论和现实意义.简要叙述了生物柴油、燃料酒精、生物制沼气、生物制氢和微生物电池等新能源的原理、优缺点和开发现状,概述了微生物资源在能源领域的应用,指出发掘新的微生物资源或构建工程菌株、明确微生物作用机理、开发新工艺将会是今后研究的重点.     

微生物污水处理技术及其应用

新时期,微生物污水处理技术在污水处理中得到越来越广泛的推广,这一技术有助于降低污水处理难度,提升污水处理效果,确保污水处理稳定性。对此,文章将从微生物的特征及作用机理入手,阐述微生物污水处理技术常见种类,探讨微生物污水处理技术在不同污水处理中的应用,以期为促进微生物污水处理技术作用的有效发挥提供一些帮助。     

微生物在污水处理中的应用研究

随着经济不断发展、人类社会活动强度不断增大,污水排放量呈现出明显的上升趋势,传统污水处理方式已经无法有效满足现代社会污水处理工作的发展需求。将微生物应用于污水处理工作中,能够充分发挥其分解速度快、繁殖效率高以及针对性强等优势,帮助人们有效解决大量的污水处理问题。文章将进一步对微生物在污水处理中的应用展开探讨,旨在提出有益于未来发展的相关建议。     

Anaerobic fixed film wastewater treatment

The anaerobic methane fermentation process has long been used in the field of wastewater engineering in sludge processing, mainly for waste stabilization and solids reduction. Recently, major advances in the fundamental understanding of the process microbiology and biochemistry, along with the development of new reactor configurations have promoted a resurgence of interest in the use of this technology for the processing of liquid industrial and municipal wastewaters. Three of these new processes, the anaerobic filter, expanded/fluidized bed, and upflow anaerobic sludge blanket, are discussed.Each of these processes is a fixed film process, which enables the attainment of high solids retention times for good system efficiency and stability, with low hydraulic retention times for system economy. Fixed film anaerobic processes are able to realize many of the benefits of anaerobic processes while overcoming many of the problems historically associated with anaerobic processes.Each of the processes is described, and examples are presented for industrial and municipal applications. Finally, the processes are qualitatively compared. At present, it is not possible to say which reactor configuration is best. In fact, the selection is often dependent on wastewater characteristics, local factors, and several other factors. More full-scale data and operating experience along with basic research needs are needed to clarify further this situation, and to design these systems optimally.     

Long term operation of pilot-scale biological nutrient removal process in treating municipal wastewater

The performance of a pilot-scale biological nutrient removal process has been evaluated for 336 days, receiving the real municipal wastewater with a flowrate of 6.8 m³/d. The process incorporated an intermittent aeration reactor for enhancing the effluent quality, and a nitrification reactor packed with the porous polyurethane foam media for supporting the attached-growth of microorganism responsible for nitrification. The observation shows that the process enabled a relatively stable and high performance in both organics and nutrient removals. When the SRT was maintained at 12 days, COD, nitrogen, and phosphorus removals averaged as high as 89% at a loading rate of 0.42–3.95 kg COD/m³ d (corresponding to average influent concentration of 304 mg COD/L), 76% at the loading rate of 0.03–0.27 kg N/m³ d (with 37.1 mg TN/L on average), and 95% at the loading rate of 0.01–0.07 kg TP/m³ d (with 5.4 mg TP/L on average), respectively.     

New concept of contaminant removal from swine wastewater by a biological treatment process

Pollution from concentrated animal feeding operations (CAFOs) are the most serious pollution source in China now, and swine wastewater contains high concentrations of nutrients such as chemical oxygen demand (COD), biochemical oxygen demand 5 (BOD5), ammonium, and emergent contaminants related to public health. Biological processes are the most popular treatment methods for COD and ammonium removal. Considering the low operation cost, easy maintenance and high removal rate of contaminants in recent years, nitrogen removal via nitrite and real-time control processes using oxidation-reduction potential (ORP) and/or pH as parameters to control the aerobic and anaerobic cycles of a system has received much attention for animal wastewater treatment. During the biological treatment process, the emergent contaminants such as estrogen, antibiotics, and disinfec-tion reagents have been the focus of research recently, and degradation bacteria and resistance bacteria have also been extracted from activated sludge. The microbial analysis technique is also advancement in the field of biodegrada-tion bacteria and resistance bacteria. All of these advance-ments in research serve to improve wastewater treatment and decrease environmental hazards, especially for using manure as a fertilizer source for crop production.     

Thermophilic aerobic wastewater treatment,process performance,biomass characteristics,and effluent quality

Thermophilic aerobic wastewater treatment is reviewed. Thermophilic processes have been studied in laboratory and pilot-scale while full-scale applications are rare. The paper focuses on the microbiology of aerobic thermophiles, performance of the aerobic wastewater treatments, sludge yield, and alternatives to enhance performance of thethermophilic process. Thermophilic processes have been shown to operate under markedly high loading rates (30–180 kg COD m⁻³d⁻¹).Reported sludge production values under thermophilic conditions vary between 0.05 and0.3 kg SS kg COD_removed, which are about the same or lower than generally obtained in mesophilic processes. Compared to analogous mesophilic treatment, thermophilic treatment commonly suffers from poorer effluent quality, measured by lower total COD and filtrated (GF-A) COD removals. However, in the removal of soluble (bacterial membrane filtered) COD both mesophilic and thermophilic treatments have produced similar results. Sludge settle ability in thermophilic processes have been reported to be better or poorer than in analogous mesophilic processes, although cases with better settling properties are rare. Combining thermophilic with mesophilic treatment or ultrafiltration may in some cases markedly improve effluent quality. This revised version was published online in June 2006 with corrections to the Cover Date.     

含油废水处理工艺中细菌多样性

从辽河油田曙光污水处理厂含油废水样品中直接抽提细菌总DNA,并对总DNA中16S rRNA V3可变区序列作PCR扩增、变性梯度凝胶电泳(DGGE),与常规水质分析相结合对系统中不同处理阶段细菌种群多样性和水质之间的关系进行分析.结果表明,处理系统的不同处理阶段细菌的多样性有明显差异,既存在共同的细菌种属,也存在着各自独特的细菌种属,且细菌种群的多样性与水质CODcr和总石油烃(TPH)的浓度呈负相关,细菌种群的多样性越高,CODcr和TPH的浓度越低,反之则越高.在处理过程中,随着样品中细菌多样性的增加,种群结构之间的相似性指数(C_8)逐渐升高,最后形成了稳定的种群结构.     

厌氧氨氧化菌脱氮机理及其在污水处理中的应用

厌氧氨氧化细菌(anammox)可以将亚硝酸盐和氨氮转化为氮气从而缩短氨氮转化的过程,它已经成为新型生物污水脱氮技术研究的热点之一。当前,有关厌氧氨氧化菌特有的生理结构特点、种群分类及其功能酶等方面的研究取得了一定突破,为实现其工业应用奠定了良好的理论基础;同时分子生物学技术在厌氧氨氧化细菌种群分布、群落多样性及其共生关系等方面的应用也大大促进了污水生物脱氮技术的革新和进步。总结了厌氧氨氧化菌主要的生理生化特点、细胞结构特点、脱氮机理、污水处理体系中的应用以及分子生物学方法对污水处理体系中厌氧氨氧化菌种群分析的研究现状,并指出未来anammox细菌在生物特性及在污水脱氮处理实际应用的研究中的热点问题。生物特性方面的主要研究热点有：（1）anammox细菌除厌氧氨氧化作用外,其它新陈代谢途径有待探索;（2）anammox细菌在不同环境中分布的倾向性问题;（3）新型anammox细菌的确定。污水处理的实际应用方面的主要研究热点有：（1）anammox污泥的快速高效富集问题;（2）设计高特异性引物;（3）anammox细菌和其他微生物的共生关系。     

Hybrid neural network modeling of a full-scale industrial wastewater treatment process

In recent years, hybrid neural network approaches, which combine mechanistic and neural network models, have received considerable attention. These approaches are potentially very efficient for obtaining more accurate predictions of process dynamics by combining mechanistic and neural network models in such a way that the neural network model properly accounts for unknown and nonlinear parts of the mechanistic model. In this work, a full-scale coke-plant wastewater treatment process was chosen as a model system. Initially, a process data analysis was performed on the actual operational data by using principal component analysis. Next, a simplified mechanistic model and a neural network model were developed based on the specific process knowledge and the operational data of the coke-plant wastewater treatment process, respectively. Finally, the neural network was incorporated into the mechanistic model in both parallel and serial configurations. Simulation results showed that the parallel hybrid modeling approach achieved much more accurate predictions with good extrapolation properties as compared with the other modeling approaches even in the case of process upset caused by, for example, shock loading of toxic compounds. These results indicate that the parallel hybrid neural modeling approach is a useful tool for accurate and cost-effective modeling of biochemical processes, in the absence of other reasonably accurate process models.     

Recent developments on biological nutrient removal processes for wastewater treatment

The need for preserving the environment is tightening regulations limiting the discharge of contaminants into water bodies. Nowadays most of the effort is done on the removal of more specific contaminants such as nutrients (N and P) and sulfurous compounds since they are becoming of great concern due to its impact on the quality of water bodies. There have been two recent discoveries of microbial conversions of nitrogenous compounds. One consisting on the capability of ammonia oxidizers of denitrify under certain conditions resulting in a new one-step method for the removal of N-compounds. The second has been named the ANAMMOX process, wherein ammonium is oxidized to dinitrogen gas with nitrite as the electron acceptor. Other developments consist of operational strategies aiming at obtaining the highest efficiency at removing nitrogen at lowest cost. One strategy consists of the partial nitrification to nitrite (only successful in the SHARON process) and subsequently either the heterotrophic denitrification of nitrites or its autotrophic reduction by ANAMMOX microorganisms. Another strategy consists of the coexistence of nitrifiers and denitrifiers in the same reactor by implementing high frequency oscillations on the oxygen level.The recent developments on biological phosphorous removal are based on the capacity of some denitrifying microorganisms to store ortho-phosphate intracellular as poly-phosphate in the presence of nitrate. These microorganisms store substrate (PHB) anaerobically which is further oxidized when nitrate is present. By extracting excess sludge from the anoxic phase, phosphate is removed from the system. Removing phosphate using nitrate instead of oxygen has the advantage of saving energy (oxygen input) and using less organic carbon.The microbial conversions of sulfurous compounds involve the metabolism of several different specific groups of bacteria such as sulfate reducing bacteria, sulfur and sulfide oxidizing bacteria, and phototrophic sulfur bacteria. Some of these microorganisms can simultaneously use nitrate, what has been reported as autotrophic denitrification by sulfur and sulfide oxidizing microorganisms. More recently, the anaerobic treatment of an industrial wastewater rich in organic matter, nitrogen and sulfate, reported a singular evolution of N and S compounds that initially was hypothesized as SURAMOX (SUlfate Reduction and AMmonia OXidation). The process could not have been verified nor reproduced and further investigations on the proposed SURAMOX mechanism have given no additional insights to those initial observations.     

藻类胞外聚合物的产生因素及其在污水处理和生物絮凝方面的应用

藻类胞外聚合物(extracellular polymeric substances, EPS)是一种复杂的高分子聚合物,主要由多糖、蛋白质等物质组成。由于EPS具有独特的结构、大的比表面积及含有大量官能团等物理-化学特性,使其在污水处理及微藻生物质的絮凝回收等方面都有着非常重要的作用。本文系统介绍了EPS的组成及特性,重点论述了影响藻类EPS产生的生物因素及非生物因素,如光照、营养盐、pH及温度等,并对EPS在污水处理及生物絮凝方面的应用进行了总结。对藻类EPS产生机制及机理的深入研究有望为微藻提供更广阔的应用前景。     

微藻废水生物处理技术研究进展

微藻因生长速率快、细胞脂质含量高及具有生物隔离二氧化碳能力,已作为新一代生物质能源受到广泛关注.然而,投入大量淡水资源并需在生长期间持续提供营养物质已成为规模化培育微藻的主要障碍.将微藻培育系统与废水处理相结合是经济可行的污水资源化方案.基于微藻生长期间对氮磷等营养物质的利用机制,本文综述了微藻在各类废水生物处理过程中的应用情况,着重分析了其对废水中有机与无机化合物、重金属以及病原体的去除或抑制能力.同时,考察了废水初始营养物浓度、光照、温度、pH与盐度以及气体交换量等环境因素对微藻生长代谢的影响.此外,结合微藻规模化应用所面临的问题,对微藻废水处理技术的应用前景及发展方向进行了展望,旨在为水生态系统的建设与管理提供参考.