共查询到18条相似文献,搜索用时 109 毫秒
1.
2.
由于人工快渗(CRI)系统对TN去除率较低,该技术在污水处理领域的应用受到限制。为提高TN去除率,将电极生物膜和硫自养反硝化技术耦合应用于CRI系统,考察了"异养+氢自养+硫自养"反硝化脱氮的可行性,并通过菌群结构解析了电极生物膜耦合硫自养强化脱氮的机理。结果表明,电极生物膜耦合硫自养强化型CRI系统在电流强度为15mA时,TN平均去除率可达73.0%,相比传统CRI系统提高了48.0百分点。从稳定运行的电极生物膜耦合硫自养强化型CRI系统反硝化区共检测出231个已知菌属,其中具有硫自养反硝化功能的产硫酸杆菌属(Thiobacillus)和具有氢自养反硝化功能的噬氢菌属(Hydrogenophaga)相对丰度较高,分别为35.9%、15.7%。硫自养反硝化、氢自养反硝化和异养反硝化的共同作用促进了CRI系统脱氮性能的提高。 相似文献
3.
《环境工程学报》2017,(6)
通过硫自养反硝化反应器连续流实验与批次实验相结合的研究方式,考察了硫自养反硝化工艺对含布洛芬的(低浓度100μg·L~(-1)和高浓度1 000μg·L~(-1))废水的处理效果,并初步研究了硫自养反硝化活性污泥对其去除机理。结果表明,硫自养反硝化活性污泥对布洛芬有较好的去除效果,反应器中布洛芬的平均去除率95%,且实验组(含布洛芬)的反硝化脱氮效果要优于空白组(不含布洛芬),布洛芬的存在可以提高系统的反硝化脱氮效率。批次实验中,在短时间内(6 d),不同浓度布洛芬的去除率均达到100%;而其中吸附去除率30%。研究表明,在硫自养反硝化工艺中,布洛芬通过生物降解作用和吸附作用去除,且生物降解起主要作用。 相似文献
4.
5.
6.
7.
为强化硫自养反硝化过程,通过向连续稳定运行的硫自养反硝化反应器内投加少量碳源以进行强化,乙酸钠投加量分别为5.99、11.98、23.96 mg·L~(-1)。分析投加前后反应器内硝氮、COD、硫酸根和耗碱量的变化;研究了碳源强化下硫自养反硝化运行效能及反应机理。结果表明,投加少量碳源可增强自养反硝化过程硝氮的去除效果;在3种碳源投加量条件下,COD的利用率均大于85%,但硫酸盐生成量并未减少;在5.99 mg·L~(-1)碳源投加量下,系统实际耗碱量大于以硫酸根和COD计的理论耗碱量,而在11.98 mg·L~(-1)和23.96 mg·L~(-1)投加量下,实际耗碱量均介于2种理论值之间。在投加少量碳源后,自养反硝化脱氮效果明显提高,异养反硝化趋势随着碳源投加量的增加而增加。 相似文献
8.
9.
《环境工程学报》2016,(6)
为探究低碳氮比条件下3DBER-S(三维电极生物膜与硫自养耦合脱氮工艺)阴极反硝化菌群特征、强化脱氮机制,在TOC/TN=0.36的进水条件下稳定运行反应器,运用nir S基因克隆文库方法,分析了3DBER-S阴极生物膜反硝化菌群结构。结果表明,在3DBER-S阴极生物膜上反硝化菌中,β变形菌(β-proteobacteria)是优势菌种,占细菌总数的59.22%。其中,所占比例最大的是异养菌,包括与固氮弧菌属(Azoarcus tolulyticus)和趋磁螺菌(Magnetospirillum magneticum)类似的细菌,分别占44.74%和21.05%。能够分别利用硫单质或氢气作为电子供体进行反硝化脱氮的Sulfuricella denitrifican、高氯酸盐降解菌(Dechlorospirillum sp.)和陶厄氏菌属(Thauera)三者所占比例之和达到了17.11%。表明系统中氮的去除是由异养反硝化、氢自养反硝化和硫自养反硝化共同作用的结果,既有效减少了脱氮过程中有机碳源的消耗,又维持了系统酸碱度的平衡,从而能够在低碳氮比条件下维持稳定高效的脱氮效果。 相似文献
10.
异养硝化及其在污水脱氮中的作用 总被引:23,自引:0,他引:23
通过与传统自养硝化作用的比较,异养硝化作用不仅是客观存在的过程,而且某些特殊的异养菌,可以同步进行异养硝化和好氧反硝化,对于污水脱氮具有重要的理论意义和应用价值。 相似文献
11.
12.
Jinlong Li Desheng Li Yuwei Cui Wei Xing Shihai Deng 《Environmental science and pollution research international》2017,24(20):16651-16658
Nitrogen bioremediation in organic insufficient wastewater generally requires an extra carbon source. In this study, nitrate-contaminated wastewater was treated effectively through simultaneous autotrophic and heterotrophic denitrification based on micro-electrolysis carriers (MECs) and retinervus luffae fructus (RLF), respectively. The average nitrate and total nitrogen removal rates reached 96.3 and 94.0% in the MECs/RLF-based autotrophic and heterotrophic denitrification (MRAHD) system without ammonia and nitrite accumulation. The performance of MRAHD was better than that of MEC-based autotrophic denitrification for the wastewater treatment with low carbon nitrogen (COD/N) ratio. Real-time quantitative polymerase chain reaction (qPCR) revealed that the relative abundance of nirS-type denitrifiers attached to MECs (4.9%) and RLF (5.0%) was similar. Illumina sequencing suggested that the dominant genera were Thiobacillus (7.0%) and Denitratisoma (5.7%), which attached to MECs and RLF, respectively. Sulfuritalea was discovered as the dominant genus in the middle of the reactor. The synergistic interaction between autotrophic and heterotrophic denitrifiers played a vital role in the mixotrophic substrate environment. 相似文献
13.
应用由城市污水处理厂序批式间歇反应器(SBR)中筛选得到的4株特殊氨氧化菌,分别在SBR和有回流的生物膜与A/O工艺耦合体系培养中,考察其降解低碳高氨氮废水的功能.结果表明,自养硝化与异养氨氧化菌的混合菌群较单一自养硝化菌株降解氨氮速率快;在生物膜与A/O工艺耦合系统中,自养硝化与异养氨氧化菌协同代谢加速氨氮氧化脱除,氨氮脱除速率远比SBR系统快.对生物膜与A/O工艺耦合系统中氨氮脱除动力学进行了研究,模拟了NH4 、NO2-质量浓度与氨氮脱除比速率之间的关系,模型得到了较好的验证. 相似文献
14.
Feasibility of a membrane-aerated biofilm reactor to achieve single-stage autotrophic nitrogen removal based on Anammox 总被引:11,自引:0,他引:11
A laboratory-scale membrane-aerated biofilm bioreactor (MABR) equipped with non-woven fabrics support around the gas-permeable carbon tube was developed for single-stage autotrophic nitrogen removal based on partial nitrification and anaerobic ammonium oxidization. This reactor allowed air to be supplied through the microporous carbon tube wall to the biofilm that was supported by non-woven fabrics. The partial nitrification and consumption of dissolved oxygen occurred in the inner layer and Anammox in the anoxic outer layer of the non-woven fabrics, thus realizing autotrophic nitrogen removal in a single reactor. After 116d of operation, the maximal nitrogen removal of 0.77kgNm(-3)d(-1) at a volumetric ammonium loading rate of 0.87kgNm(-3)d(-1) was achieved. The spatial profiles of the ammonia-oxidizing bacteria and Anammox bacteria were evaluated by fluorescence in situ hybridization. This study demonstrated that MABR was a very suitable experimental set-up for the operation of the single-stage autotrophic nitrogen removal process. 相似文献
15.
Are picoplankton responsible for calcite precipitation in lakes? 总被引:2,自引:0,他引:2
Deposits of lacustrine calcite are important records of environmental changes. In order to interpret these archives, knowledge about the origin of the calcite is essential. It has been accepted that calcite precipitation can be induced by bacteria and algae. However, the detailed mechanisms are still unclear. This review summarizes what is known about the interactions between calcite precipitation and the autotrophic picoplankton. We consider findings from both field and laboratory studies. Field studies show that calcite precipitation in oligotrophic lakes is strongly linked with picocyanobacteria blooms. Laboratory experiments led to the formulation of the mechanism of precipitation induced by microalga. Experiments also showed that precipitation induced by picocyanobacteria is influenced by various factors including the uptake of inorganic carbon and the structure of the cell walls. Recent studies indicate that the influence of environmental conditions like the composition of lake water has to be taken into account as well. We conclude that in situ observations of precipitation processes at picoplankton cells under controlled conditions are needed to improve our understanding of mineral bacteria interaction. 相似文献
16.
Carbon budgets are frequently used in order to understand the pathways of organic matter-in ecosystems, and they also have an important function in the risk assessment of harmful substances. We compared two approaches, mass balance calculations and an ecosystem budget, to describe carbon processing in a shallow, oligotrophic hardwater lake. Both approaches come to the same main conclusion, namely that the lake is a net autotrophic ecosystem, in spite of its high dissolved organic carbon and low total phosphorus concentrations. However, there were several differences between the carbon budgets, e.g. in the rate of sedimentation and the air-water flux of CO2. The largest uncertainty in the mass balance is the contribution of emergent macrophytes to the carbon cycling of the lake, while the ecosystem budget is very sensitive towards the choice of conversion factors and literature values. While the mass balance calculations produced more robust results, the ecosystem budget gave valuable insights into the pathways of organic matter transfer in the ecosystem. We recommend that when using an ecosystem budget for the risk assessment of harmful substances, mass balance calculations should be performed in parallel in order to increase the robustness of the conclusions. 相似文献
17.
A comparison of organic and inorganic carbon controls over biological denitrification in aquaria 总被引:5,自引:0,他引:5
In aquaria and rearing tanks, nitrate accumulation as a result of organic matter degradation is inevitable and has two major negative side effects: direct toxicity to organisms, specially invertebrates, and the introduction of a reducing environment by oxygen consumption. The aim of this study was to compare two alternate methods of removing nitrogen compounds from closed systems, autotrophic columnar denitrification (ACD) and heterotrophic columnar denitrification (HCD) by following end product concentrations as reaction progressed. A pilot plant consisting of two series of 50 dm3 recirculating flow systems (each in triplicate) was used to test both methods. Absence of pH control was also useful in autotrophic denitrification systems in order to follow effects over reaction rates and pathways. Concentrations of NO(3-), NO2- and NH(4+) were followed throughout the experiment, as well as pH, temperature and salinity. Under different flow conditions results show that higher nitrate reduction rates were possible in the autotrophic systems (35.1+/-4.7 microM/day without pH control until reversal of the process and 20.6+/-7.3 microM/day after reestablishment of pH control) in comparison with heterotrophic (9.9+/-1.3 microM/day). However, pH control through calcium bicarbonate addition was found to be crucial in maintaining constant levels of total denitrification in ACD systems, just as it was necessary to closely maintain organic carbon addition to HCD systems. 相似文献
18.
The aim of this study is the application of photocatalysis as an effective post treatment scheme for the removal of the organic matter and bacteria released by an innovative biological denitrification process referred to as heterotrophic-autotrophic denitrification, which combines heterotrophic and autotrophic denitrification processes. Photocatalytic treatment was applied using TiO2 as a photocatalyst in the loading range of 0.25-2.00 g l(-1) for irradiation periods up to 60 min using a black light fluorescent lamp with an intensity of I(0)=1309 microW cm(-2). The photocatalytic inactivation data were modelled to pseudo first order kinetics as well as by the areal rates to evaluate the photocatalyst loading effect. Chlorination was used as a final disinfection step to attain an overall inactivation of total coliforms as well as to the formation of very low level of trihalomethanes. 相似文献