Effects of Coagulation and Ozonation Pretreatments on Biochemical Treatment of Fluid Catalytic Cracking Wastewater

Fluid catalytic cracking (FCC) salty wastewaters, containing quaternary ammonium compounds (QACs), are very difficult to treat by biochemical process. Anoxic/oxic (A/O) biochemical system, based on nitrification and denitrification reactions, was used to assess their possible biodegradation. Because of the negative effects of high salt concentration (3%), heavy metals and toxic organic matter on microorganisms’ activities, some techniques consisting of dilution, coagulation and flocculation, and ozonation pretreatments, were gradually tested to evaluate chemical oxygen demand (COD), ammonia-nitrogen (ammonia-N) and total nitrogen (TN) removal rates. In this process of FCC wastewater, starting with university-domesticated sludge, the ammonia-N and TN removal rates were worst. However, when using domesticated SBR’s sludge and operating with five-fold daily diluted influent (thus reducing salt concentration), the ammonia-N removal reached about 57% while the TN removal rate was less than 37% meaning an amelioration of the nitrification process. However, by reducing the dilution factors, these results were inflected after some days of operation, with ammonia-N removal decreasing and TN barely removed meaning a poor nitrification. Even by reducing heavy metals concentration with coagulation/flocculation process, the results never changed. Thereafter, by using ozonation pre-treatment to degrade the detected organic matter of di-tert-butylphenol and certain isoparaffins, COD, ammonia-N and TN removal rates reached 92%, 62% and 61%, respectively. These results showed that the activities of the microorganisms were increased, thus indicating a net denitrification and nitrification reactions improvement.

Treatment of Wastewater from Dairy Farm by Coagulation Sedimentation

In order to evaluate the processing efficiency of coagulation sedimentation on wastewater from dairy farm and to provide reference for wastewater treat- ment, an experimental study was carried out to investigate effects of coagulant dosage, types, pH, dosage of coagulant aids PAM on removal rate of COD, turbidity and SS in wastewater from dairy farm. The results showed that PAC displayed higher effectiveness in treatment; the removal rates of COD, turbidity and SS were 61.4%, 86.6% and 94.5% respectively when pH was 11.0, PAC dosage was 150 mg/L, and PAM dosage was 4 mg/L. The results indicated that coagulation sedimentation could reduce organic content of wastewater effectively and alleviate the load of subsequent biochemical treatment.

Feasibility Study on the Treatment of Wastewater Containing High-concentration Hg by Coagulation Sedimentation-Adsorption

For the wastewater containing high-concentration Hg,the feasibility of high-concentration Hg in wastewater treated by coagulation sedimentation,adsorption and the combined process was studied. Research results showed that if using the single coagulation sedimentation process,when FeSO_4·7H_2O dosage was 1. 39 g / L,and NaOH dosage was 0. 40 g / L,it could meet discharge requirement,but the reagent cost was 13. 1yuan / t,which was high. Because that there was subsequent adsorption process,it was selected 0. 28 g / L of FeSO_4·7H_2O and 0. 36 g / L of NaOH,and the estimated reagent cost was 2. 62 yuan / t. In selection process of adsorption materials,powdered activated carbon,granular activated carbon and diatomite all could effectively adsorb Hg,and the technology was feasible. When using the combined process of coagulation sedimentation + adsorption to treat the wastewater containing high-concentration Hg( 800 μg / L),removal rate could reach 99%,and operation cost was 2. 71 yuan. It could meet the requirement of sewage discharged into sewer( 20 μg / L) at the technology,and was acceptable at the economy.Therefore,treatment of wastewater containing high-concentration Hg by the combined process was feasible at the aspects of technology and economy.

Removal Effect of Coagulating Sedimentation Method on Polyethylene Microplastics in Water

Microplastic is a new kind of pollutant.It exists widely in the aquatic environment and seriously endangers the aquatic ecosystem.In this study,the coagulating sedimentation method was used to remove microplastics in water.Polyethylene(PE)was selected as the representative of microplastics,polyferric sulfate(PFS),polyaluminum chloride(PAC)and aluminum sulfate(AS)were used as coagulant,and polyacrylamide(PAM)was used as coagulant aid to study the effects of pH,coagulant concentration and sedimentation time on the removal of PE by single and composite coagulant.The results showed that when the dosage of PFS was 0.5 g/L and pH was 5.0,the removal rate could reach 82.14%,which was better than PAC and AS,indicating that PFS had better coagulation and sedimentation performance for PE;the composite coagulant of PFS+PAC+AS(1 g/L+0.2 g/L+0.2 g/L,pH was 5.0)had the highest removal rate of PE,reaching 96.06%;the removal rate of PE increased with the increase in sedimentation time,but considering that the longer sedimentation time has less contribution to the improvement of removal rate,it is recommended that 4 h is appropriate.

臭氧氧化+A/O+臭氧氧化工艺在化工园区污水处理厂中的运用

化工园区废水成分复杂,难降解物质多。某化工园区污水处理厂选用分质强化混凝沉淀+臭氧氧化作为预处理工艺,同时采用水解酸化+厌氧好氧(Anaerobic/Oxic,A/O)的二级处理工艺和混凝沉淀+臭氧氧化的深度处理工艺。实际运行结果表明,该组合工艺对化学需氧量(Chemical Oxygen Demand,COD)的平均去除率为85.7%,COD去除效果良好,出水水质优于《城镇污水处理厂污染物排放标准》(GB 18918—2002)的一级A标准。

机械力活化方解石复合硫酸亚铁去除水中镉/砷复合污染研究

水体中的镉、砷等重金属污染严重威胁人类的健康安全,其中镉/砷复合污染去除难度更大。通过水中镉/砷复合污染去除试验,探究机械力活化方解石复合硫酸亚铁去除镉/砷复合污染的性能,发现机械力活化方解石可显著提升水中镉/砷复合污染的去除效果。试验结果表明,活化方解石复合硫酸亚铁在30 min内对溶液中镉、砷离子的去除率可达到99%以上。采用SEM-EDS、XRD、XPS等方法对活化方解石复合硫酸亚铁高效去除水中镉/砷复合污染机理进行研究,结果表明,方解石在机械力活化的作用下改变了自身的结晶度和溶解活性,其在水体中溶解水解产生CO_(3)^(2-)与OH^(-)的性能明显提升,OH^(-)促进硫酸亚铁在溶液中与砷形成稳定的铁氧结合态沉淀,CO_(3)^(2-)与溶液中的镉结合形成稳定的碳酸镉沉淀。

混凝沉淀法处理冶金含氟废水工艺研究

水中氟含量超标会对环境造成巨大影响,目前冶金行业普遍采用混凝沉淀法处理含氟废水。因此,针对混凝沉淀法除氟工艺中影响因素多、除氟效果缺少综合评估的问题,以某钢铁公司生产过程中产生的含氟废水为对象进行研究。首先通过正交实验考察pH、聚氯化铝(PAC)投加量、聚丙烯酰胺(PAM)投加量、PAC搅拌时间、PAM搅拌时间对含氟废水除氟效率影响的主次关系。研究结果表明,影响除氟效率的主次因素排序依次为pH、PAC搅拌时间、PAC投加量、PAM搅拌时间、PAM投加量。此外,对上述因素及温度等单因素变化对除氟效率的影响进行了研究。结果表明,最佳条件:pH为7、PAC投加量为70 mL、PAM投加量为2.5 mL、PAC搅拌时间为15 min、PAM搅拌时间为30 min、温度为30℃,在此最佳条件下除氟效率最高,可以达到99.3%。实际工程应用中,混凝沉淀法对氟离子总去除率在80%~90%,出水氟含量保持在7 mg/L左右,能够满足氟离子达标排放的要求。

“A/RPIR+磁混凝沉淀”组合工艺处理城镇废水的稳定运行效能分析

“A/RPIR+磁混凝沉淀”组合工艺具有运行能耗低,投资节省,占地少,运行稳定,出水水质好等优势,已在河道黑臭水体治理及市政污水处理领域得到广泛应用。本文对某市政污水处理厂(A/RPIR+磁混凝沉淀工艺、设计规模10×10^(4)m^(3)/d)的稳定运行效能进行分析评估。结果表明,水厂出水水质全部稳定达标,年平均吨水电耗为0.196kWh,产出泥饼含水率相对稳定,平均为79.5%,日泥饼产量为74.1 t,污泥产率为1.14×10^(4)TDS/m^(3)。污水厂整体运行效能良好。

某铝土矿洗矿尾矿沉降试验研究

云南某铝土矿为了解决洗矿尾矿沉降困难及浓密机溢流碱性高的问题,进行了在洗矿尾矿中添加无机助凝剂、有机絮凝剂及2类药剂混合使用的沉降试验,并对沉降上清液的浊度进行了检测。试验结果表明:在自然pH值为7.3的条件下,0.024 g/L的APAM(1200万分子量)与0.4 g/L的聚合氯化铝混合使用,可有效促进洗矿尾矿的沉降,10 min时的沉降压缩率达69.2%,上清液浊度仅43 NTU。同时,聚合氯化铝+1200万分子量APAM混合药剂作用下的矿石红外光谱测定结果表明,聚合氯化铝与APAM在矿物颗粒表面的吸附作用为物理性吸附。

医药产业园区废水处理工程实例

针对山东某医药产业园区生产废水高COD、高氨氮、高盐分和可生化性差等特点,设计采用蒸氨-MVR蒸发结晶-臭氧催化氧化-A^(2)/O-深度处理工艺,处理水量为500 m^(3)/d。工程实践表明,该工艺对COD、氨氮、总氮、总磷和SS的去除率分别达到了97.1%、89.9%、85.9%、93.5%和96.3%,相应出水水质分别为358、27、52、0.62和40 mg/L,出水水质满足GB/T 31962—2015《污水排入城镇下水道水质标准》中的A级排放标准。

印刷油墨废水处理工程实例

针对地面材料厂印刷油墨废水有机物含量高、溶解性固体含量高、可生化性差等特点,采用“两级混凝沉淀+碟管式反渗透(DTRO)”工艺进行处理。文章介绍了工艺流程、工艺单元及设备、处理效果及技术经济性。稳定运行结果表明,该工艺对CODCr、BOD5、SS、NH_(3)-N、DS、TS的总去除率分别为99.77%、98.40%、99.90%、99.91%、99.63%、99.65%,出水BOD_(5)、SS、DS平均值分别为20 mg/L、2 mg/L、68 mg/L,优于GB/T 19923—2005《城市污水再生利用工业用水水质》中的洗涤用水水质标准,电费和药剂费用合计为26.14元/m3。

浅层气浮处理矿井水工程实践

为解决河北某矿矿井水处理工艺存在的运行效果不稳定、出水水质差、药剂费用高等问题,提出拆除纤维转盘、增加二次沉淀池等改进措施。改进后工艺为“调节(一次混凝)预沉池+(二次混凝)气浮池+二次沉淀池”。实验表明:一次混凝PAC投加50mg/L,二次混凝PAC投加10mg/L,PAM投加0.5mg/L时,效果最好,上清液浊度为1.14NTU。改进后系统运行稳定,药剂费减少30%以上,预沉池、气浮池和二次沉淀池出水浊度分别为33.5~58.1NTU、5.8~11.3NTU、1.9~5.1NTU。二次沉淀池起到良好的稳定水质作用,出水达到矿井水回用和排放相关标准。

矿井废水处理中混凝沉淀过滤技术应用

矿井废水经过处理后可作为煤矿工业用水,提高水资源利用价值,减轻废水排放引起的环境污染问题。本文以某煤矿项目为例,通过对矿井水来源及水质特点的了解,提出混凝沉淀过滤技术在矿井废水处理中的应用策略,监测污染物排放指标,并从经济效益和生态环境效益进行分析,认为混凝沉淀过滤技术的综合应用效果良好,具有推广价值。

EBIS(改良AO)+磁混凝工艺在陕西某城市污水厂提标改造工程中的应用

陕西某城市污水处理厂总设计规模80000 m^(3)/d,其中40000 m^(3)/d生化池利用现状的CASS池进行改造,另外新建40000 m^(3)/d生化池及80000 m^(3)/d规模的深度处理设施。污水处理厂进水主要来源为城市生活污水,混合少量的工业污水,处理工艺采用“预处理+EBSI生化池+磁混凝沉淀池+次氯酸钠消毒”主体工艺,介绍了工程的工艺流程、主要设计参数及运行效果等。出水水质监测指标表明,本项目出水完全满足《陕西省黄河流域污水综合排放标准》(DB61/224-2018)中A标准。

光伏产业含氟废水及工业处理方法进展

近年来我国光伏产业发展迅速,但多晶硅和光伏电池制造过程中会产生大量含氟废水,且污水处理排放含氟标准日益严格,因此光伏废水处理成为光伏企业工艺升级的重点领域。该文总结了现有的含氟废水处理技术,对各类含氟废水处理技术进行了多维度对比,并从企业角度探讨了高效、经济、工业化的含氟废水处理方法;分析了混凝沉淀法和混凝吸附法最新工艺处理流程及效果,提出了含氟废水处理工艺发展方向,对我国光伏企业升级污水治理工艺、实现节能减排和提质增效具有借鉴意义。

UASB-两级A/O-混凝工艺处理生猪养殖污水工程实例

针对某规模生猪养殖场污水成分复杂、污染物浓度高、可生化性较好等水质特征,设计采用预处理-UASB-两级A/O-混凝沉淀-多介质过滤-消毒组合工艺进行处理,介绍了工艺流程及主要设计参数,考察并分析了组合工艺对生猪养殖污水的处理效果。工程运行结果表明,该工艺处理效率高,出水稳定,主要污染物指标均达到GB 8978—1996《污水综合排放标准》中的一级标准,出水可用于农田灌溉。

露天矿矿井水处理工艺中污泥脱水问题及对策研究

以某露天煤矿矿井水车间污泥脱水问题为例,根据混凝沉淀正交加药实验结果,分析在不同PAC和PAM加药量下上清液浊度和沉降时间的关系;根据污泥比阻公式分析得出,污泥浓度从3%分别提高到5%和10%时,污泥比阻降低43.2%和75.7%;通过加药实验建立污泥调理加药的回归方程指导加药;在前人研究的压滤公式中建立压滤时间与含固率关系方程,可以通过单一时间变量预测泥饼含水率,为指导设计和现场工作提供了思路。

净水厂生产废水回收再利用研究

挖掘净水厂生产废水的利用潜力,对其进行合理回用可节约淡水资源,同时具有保护环境的优点,有利于水资源的可持续发展。从安全性来考虑,生产废水处理后再回用是未来发展的必然趋势。生产废水处理方法中最常用的是混凝沉淀法,效果最好的是膜处理方法。膜处理法需控制好膜污染问题且成本偏高,随着膜构件价格逐渐降低,该技术将得到更广泛的应用。

混凝沉淀法处理草甘膦生产废水的试验研究

草甘膦作为一种高效低毒的除草剂,在当前农业生产中被广泛使用。在草甘膦生产过程中,会产生大量含有机磷的废水,含量高达数十mg/L,必须采取合理有效的处理手段,减少甚至消除其对环境的污染。采用混凝沉淀法对草甘膦生产废水中的二甲酯精酯废水和甲醇回收残液进行了处理,研究了混凝剂种类、投加量、反应pH及反应时间对废水COD和TP去除效果的影响。实验表明,投加新型高分子混凝剂聚铝铁比其他几种混凝剂处理效果更好,投资运行成本更低。在混凝剂聚铝铁投加量为0.7g/L、反应pH为5、反应时间为40min时对草甘膦二甲酯精酯废水处理效果最好。此时COD的去除率可在40%以上,TP的去除率可在65%以上。在混凝剂聚铝铁投加量为0.9g/L、反应pH为4、反应时间为40min时对草甘膦甲醇回收残液废水处理效果最好,TP的去除率可在65%以上。

CHARACTERS OF SEDIMENTATION OF SUSPENSION FLOCCULATED OR COAGULATED

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