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复合式生物除臭反应器处理城市污水处理厂恶臭气体 总被引:4,自引:0,他引:4
采用复合式生物除臭反应器处理北京某城市污水处理厂污泥浓缩池和脱水间散发的恶臭气体,研究了反应器对恶臭气体的净化效果和微生物悬浮生长区与附着生长区内的生物特性及对恶臭污染物的去除能力。该污水处理厂的恶臭气体中主要发臭物质为硫化氢和氨,除臭反应器的运行结果表明,在设备稳定运行期间,进气中硫化氢和氨的浓度分别为0.21~22.61 mg/m3和0.1~0.5 mg/m3,而出气中硫化氢浓度在0~0.06 mg/m3,氨浓度为0~0.02 mg/m3。对反应器内部测试表明,微生物悬浮生长区和附着生长区对硫化氢和氨都有一定的去除,但去除机理不同。硫化氢主要被附着生长区的嗜酸性硫细菌生物氧化,少量硫化氢在悬浮区溶于水被中性硫细菌氧化;氨主要在悬浮区靠生物硝化作用去除,少部分氨在附着区被去除,且多因化学中和作用转移到填料所含的水中。 相似文献
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铁盐混凝剂因其高电荷、安全无毒、易于控制等优点,在城市污水厂除磷方面得到了进一步的发展和应用。为了考察FeCl3除磷的作用特征,探讨除磷效率随pH值、FeCl3投加量等混凝参数的变化规律,以氯化铁(FeCl3)为除磷剂,某城市污水处理厂二级出水为实验水样,进行了实验研究。研究结果表明,水样的硬度对混凝剂除磷性能有较大影响,在最佳工艺条件———不调节水样pH值、FeCl3投加量为75 mg/L时,可将废水中的总磷含量从4.95 mg/L降至0.44 mg/L以下,处理出水可达《城镇污水处理厂污染物排放标准》(GB 18918-2002)中的一级A排放标准(GB18918-2002)(TP<0.50 mg/L)。 相似文献
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污水生物除磷若干影响因素分析 总被引:21,自引:2,他引:21
在系统阐述污水生物除磷机理的基础上,深入分析了微生物群体平衡、城市污水水质、环境因子以及工艺运行参数和运行方式等方面对生物除磷效果的影响.分析结果表明:生物除磷系统的溶解氧浓度不宜太高,一般好氧区DO<2 mg/L,厌氧区DO<0.2 mg/L;厌氧段存在硝酸盐对生物释磷有负面影响,缺氧段存在一定浓度的硝酸盐有利于生物聚磷;碳源必须充分、易降解;TKN/COD<0.1的城市污水有利于生物除磷;pH偏碱性可提高生物除磷效率;低温对生物除磷效果影响不明显. 相似文献
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以南京某城市污水厂污水和污泥中的酞酸酯类(PAEs)为研究对象,分别采用固相萃取-气相色谱-质谱联用(SPE—Gc.Ms)和超声提取.气相色谱.质谱联用(USE—GC—Ms)检测其中的优先控制污染物邻苯二甲酸二甲酯(DMP)、邻苯二甲酸二乙酯(DEP)、邻苯二甲酸二丁酯(DBP)和邻苯二甲酸单(2-乙基己基)酯(MEHP),研究其在厌氧/好氧(A/O)污泥处理过程中的分布特征及降解规律。研究结果表明,各类PAEs在该污水厂的污水和污泥中均有检出,二级处理出水中4种酞酸酯类物质的浓度在0.151—2.419μg/L。污水中4种酞酸酯的分布规律为MEHP〉DBP〉DMP〉DEP,污泥中4种酞酸酯的分布规律为MEHP〉DBP〉DEP〉DMP。该污水厂二级处理工艺对4种PAEs的去除效果较明显,去除效率DBP〉DEP〉DMP〉MEHP. 相似文献
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以南京某城市污水厂污水和污泥中的酞酸酯类(PAEs)为研究对象,分别采用固相萃取-气相色谱-质谱联用(SPE-GC-MS)和超声提取-气相色谱-质谱联用(USE-GC-MS)检测其中的优先控制污染物邻苯二甲酸二甲酯(DMP)、邻苯二甲酸二乙酯(DEP)、邻苯二甲酸二丁酯(DBP)和邻苯二甲酸单(2-乙基己基)酯(MEHP),研究其在厌氧/好氧(A/O)污泥处理过程中的分布特征及降解规律。研究结果表明,各类PAEs在该污水厂的污水和污泥中均有检出,二级处理出水中4种酞酸酯类物质的浓度在0.151~2.419 μg/L。污水中4种酞酸酯的分布规律为MEHP>DBP>DMP>DEP,污泥中4种酞酸酯的分布规律为MEHP>DBP>DEP>DMP。该污水厂二级处理工艺对4种PAEs的去除效果较明显,去除效率DBP>DEP>DMP>MEHP。 相似文献
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在分析传统A2/O工艺缺陷的基础上,提出了一种改进型A2/O工艺。为了防止回流污泥中的硝酸盐进入厌氧区,在传统A2/O工艺的厌氧区后面增加一个体积较小的缺氧选择池,回流污泥进入缺氧选择池,并进行反硝化消耗回流污泥中的硝酸盐;同时,在缺氧区通过反硝化除磷实现"一碳两用"。结果表明,改进型A2/O工艺有较好的脱氮除磷效果,在COD为298mg/L、TN为55mg/L左右、TP为7mg/L左右时,系统对COD、TN、TP的平均去除率分别为88.44%、77%、95%。 相似文献
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Several treatment processes of mixed sludge naturally contaminated with nonylphenol ethoxylates (NPE) were compared in order to evaluate their efficiency for the removal of these endocrine disrupters. Anaerobic and aerobic treatments were carried out in continuous stirred tank reactors, operated separately or combined together, at mesophilic and thermophilic temperatures and with or without ozone post-treatment. Anaerobic mesophilic removal of NPE consisted of complete removal of nonylphenol diethoxylate, incomplete removal of nonylphenol monoethoxylate and non stoechiometric production of nonylphenol, with consequently a NPE removal of 25%. At thermophilic temperature, anaerobic digestion led to an increase of the total solids removal efficiency, while improving NPE degradation (30%). Under thermophilic aerobic condition, the three compounds were removed simultaneously with a NPE removal efficiency higher than under anaerobic condition (39%). This removal is always well correlated to the total solids removal meaning that bioavailability remains the main limiting factor. Combination of either thermophilic aerobic-mesophilic anaerobic or mesophilic anaerobic-ozonation treatments enhanced the NPE removal by comparison to single systems (45% and 48%, respectively). These results confirm the high potential of existing and up-grading sewage sludge treatments to degrade such refractory and aged compounds. 相似文献
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为提高进入琵琶湖水体水质和有效恢复并保持琵琶湖流域水生态环境,日本滋贺县10家下水道污水处理厂全部采用脱氮除磷深度处理工艺。湖南中部净化中心目前规模为26.85万t/d,采用缺氧-好氧循环硝化/反硝化(AO)、厌氧-缺氧-好氧(AAO)和多段进水多级缺氧-好氧硝化/反硝化(SMAO)3种深度处理工艺。AAO工艺是国内城镇污水处理厂广泛采用的二级生化工艺,AO、SMAO工艺在国内还没有应用实例。AO、AAO工艺采用内循环硝化/反硝化反应脱氮,SMAO工艺采用无内循环的多段进水多级硝化/反硝化反应脱氮。AO、SMAO工艺采用化学方式除磷,PAC添加浓度约50 mg/L。AAO工艺采用化学和生物组合方式除磷,PAC添加浓度降低到约30 mg/L。AO、AAO工艺出水BOD、CODMn、SS、TN和TP均值分别约为0.9 mg/L、5.2 mg/L、99.5%、78.0%和98.1%。SMAO工艺出水TN约为2.5 mg/L,TN去除率提高到91.6%,其他指标和AO、AAO工艺基本相同。 相似文献
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污水处理系统臭气污染问题的研究 总被引:1,自引:0,他引:1
通过对污水处理系统中臭气来源和特征的分析 ,系统地阐述臭气产生的原因和测定、处理方法 ,指出对臭气控制是今后污水处理系统发展的方向之一。 相似文献
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The antimicrobial agent triclosan (5-chloro-2-(2,4-dichlorophenoxy)phenol; TCS) is a member of a larger group of polychlorinated binuclear aromatic compounds frequently associated with adverse environmental and human health effects. Whereas the structure and function of TCS would suggest significant resistance to biotransformation, biological wastewater treatment currently is considered the principal destructive mechanism limiting dispersal of and environmental contamination with this compound. We explored the persistence of TCS in a typical full-scale activated sludge US sewage treatment plant using a mass balance approach in conjunction with isotope dilution liquid chromatography electrospray ionization mass spectrometry (ID-LC-ESI-MS) for accurate quantification. Average influent and effluent concentrations (mean +/- SD) of 4.7+/-1.6 and 0.07+/-0.06 microg 1(-1), respectively, revealed an apparent (liquid-phase) removal efficiency of 98+/-1%. However, further analyses demonstrated that the particle-active TCS (80+/-22% particle-associated in influent) was sequestered into wastewater residuals and accumulated in dewatered, digested sludge to concentrations of 30000+/-11000 microg kg-1. Overall, 50+/-19% (1640+/-610 g d-1) of the disinfectant mass entering the plant (3240+/-1860 g d-1) remained detectable in sludge, and less than half of the total mass (48+/-19%) was biotransformed or lost to other mechanisms. Thus, conventional sewage treatment was demonstrated to be much less effective in destroying the antimicrobial than the aqueous-phase removal efficiency of the plant would make believe. Furthermore, study findings indicate that the common practice of sludge recycling in agriculture results in the transfer of substantial quantities of TCS to US soils used, in part, for animal husbandry and crop production. 相似文献
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为了解15种药物及个人护理用品(PPCPs)在中小型污水处理厂中的分布及其去除效果,采用液相色谱-串联质谱(LC-MS/MS)技术对3座A2/O工艺的污水处理厂水样进行分析研究。结果显示,除普萘洛尔、吉非罗平和吲哚美辛在3座中小型污水处理厂各个工艺单元中均未被检出外,其余12种目标化合物的检出频率在90%~100%之间。进水水样中PPCPs的平均检出浓度为2 285.4 ng/L,其中咖啡因(CF)的平均检出浓度最高为973.3 ng/L,酮洛芬(KP)的平均检出浓度次之为844.7 ng/L,两者之和占进水水样中PPCPs平均含量的79.5%,表明污水处理厂的主要污染物为CF和KP。3座污水处理厂对CF的去除效果最为显著,平均去除率为95.3%,对15种PPCPs总去除效率在39.3%~82.8%之间。 相似文献
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Monitoring of cyclic volatile methylsiloxanes (cVMS) carried out at Anglian Water’s Broadholme sewage treatment plant (STP) is described. The method deployed used headspace gas chromatography/mass spectrometry (HS-GC/MS) and the addition of isotopically labelled cVMS to correct for partitioning in samples containing high levels of particulate and dissolved organic carbon. The method was capable of measuring cVMS in raw sewage samples, with recoveries of 80%, 85% and 71% respectively, for D4, D5 and D6. The limit of quantification was 0.2 μg L−1 for all three substances. Recoveries close to 100% were observed for all cVMS spiked into treated effluent (LOQ = 0.01 μg L−1). Despite the volatile nature of cVMS and its ubiquitous presence in the ambient atmosphere, the methods deployed showed excellent recoveries, reproducibility and quantification limits. A distinct diurnal variation in cVMS concentration, probably linked with the use of personal care products was observed for raw sewage but not in treated sewage effluent. The estimated per capita consumption of D5 (∼2.7 mg cap−1 d−1) derived for the population served by this plant was significantly lower than that derived in the Environment Agency (UK) risk assessment (11.6 mg cap−1 d−1). The cVMS were highly removed during sewage treatment with efficiencies greater than 98%. The methods and findings of this pilot study can be used as the basis for future studies on the fate of cVMS substances in STPs. 相似文献
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《环境污染与防治》2015,(8)
采用生物活性炭(BAC)过滤技术深度处理污水二级出水,分析了该技术对二级出水有机物(EfOM)的去除效果及对EfOM分子量分布、荧光特性的影响。通过分层取样,考察了EfOM在BAC柱中的沿程变化,并在此基础上探讨了空床停留时间(EBCT)对BAC柱去除EfOM效果的影响。结果表明,当EBCT为30min时,BAC柱运行稳定后对污水二级出水中溶解性有机碳(DOC)、有机污染物(以水样在254nm紫外光下的吸光度(UV254)表征)和TN的平均去除率分别为25%、25%、11%。BAC柱对分子量1ku的小分子有机物去除效果最显著。分层取样结果表明,EBCT为30min时,EfOM的高效去除主要发生在BAC柱顶层10cm,EBCT延长至60min时,EfOM的去除主要发生在BAC柱顶层20cm内,延长EBCT能够加强BAC柱对EfOM的去除效果。 相似文献
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厌氧氨氧化工艺在处理生活污水过程中存在处理效率不稳定的问题,阻碍了其在生活污水处理中的工程应用。采用包括缺氧反应器、好氧反应器、膜组件3个部分的anammox-MBR (AX-MBR) 耦合工艺来处理生活污水,以期解决该问题。实验开始时,先投加污水处理厂好氧活性污泥进行启动,后降低反应系统的溶解氧,最后再投加厌氧氨氧化菌 (AnAOB) 。结果表明,投加AnAOB可有效提高AX-MBR的NH4+-N去除率,NH4+-N平均去除率由68%升至87%。实验过程中未对反应器进行温度控制,故在反应温度低于20 ℃时发现,AnAOB活性随着温度降低急剧下降。在低温环境运行时,可采用降低进水负荷的方式来保证处理效果。采用15N稳定同位素示踪法对AnAOB脱氮贡献率进行分析表明,AX-MBR氮元素的去除主要由AnAOB主导的途径完成,其脱氮贡献率可达65%。而16S高通量测序结果表明,缺氧反应器中的AnAOB主要为Candidatus Kuenenia,且缺氧反应器和好氧反应器的反硝化细菌丰度远大于氨氧化细菌丰度。这表明AX-MBR中NO2--N主要来源于部分反硝化,这在群落水平上证明了短程反硝化-厌氧氨氧化的存在。本研究结果可为厌氧氨氧化的工艺发展提供参考。 相似文献
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污水厂生物除臭设施运行及影响因素的研究 总被引:2,自引:0,他引:2
在污水处理过程中会有大量的恶臭气体产生,主要含硫化氢和氨等发臭物质.这些臭味物质逸散到空气中,对污水处理厂及其周边的空气环境造成危害.针对清河污水处理厂原有生物除臭设施除臭效率难以提高的问题,对气体收集系统和生物除臭滤池内的喷淋管路进行了改造,并更换了新型生物填料.本研究对改造前后的除臭效果进行了考察,结果显示,硫化氢的平均去除率从改造前的36.5%提高到62.9%,最大去除率可以达到96.2%;氨的去除率从28.2%提高到接近100%.臭味气体的处理效果随除臭滤池的温度、气体的相对湿度的升高而提高.为此,对臭味气体的负荷、流量、温度以及湿度等因素进行了研究,在温度>20℃、相对湿度>80%的条件下,生物除臭滤池能够有比较理想的处理效果. 相似文献