Occurrences of Glucocorticoids in Aquatic Environment and Their Removal during Wastewater Treatment

Glucocorticoids(GCs) are a group of endocrine-disrupting compounds(EDCs) frequently prescribed against various medical conditions.Recently,GCs have been shown to be effective in managing septic shock in patients infected with the 2019 novel coronavirus(COVID-19).Due to colossal consumption and potential risks to aquatic organisms,GCs have immensely attracted the focus of the scientific research community as a water pollutant.Therefore,the aim of this paper is to review the current knowledge on the occurrence of various GCs in the aquatic environment and their removal during wastewater treatment.A variety of GCs are ubiquitous in surface water,hospital wastewater,and sewage water worldwide.And the minimum concentration in volume is below 0.01 ng/L,and the maximum one is 10 000 ng/L,and enter the environment through hospital and urban wastewater discharging.Compared with natural GCs,higher risks to aquatic environments could be induced by synthetic GCs.The current activated sludge processes used in wastewater treatment plants(WWTPs) are not fully effective in eliminating GCs,some of which may further increase the risk of GC in the environment.In comparison with the aerobic process in WWTPs,the anaerobic and anoxic processes were found to be more efficient for GC degradation.Of the studied GCs,fluticasone propionate,clobetasol propionate,fluocinolone acetonide,and triamcinolone acetonide need more attention due to their low removal efficiencies and strong toxicity.Among the advanced treatment processes,reverse osmosis,ultraviolet irradiation,CaO_(2),and plasma could achieve significant GC activity removal while micro/ultra-filtration,chlorination,and ozonation were less efficient.

Advanced Treatment of Wastewater Treatment Plant Effluent by Using Biofilms on Filamentous Bamboo

[ Objective ] The study aimed at treating wastewater treatment plant （WWTP） effluent by using bio-film reactor with filamentous bamboo as bio-carrier. [ Method] With the aid of a continuous flow reactor, a bio-film reactor using filamentous bamboo as bio-carrier was used to treat WWTP effluent with low C/N ratio, and the removal effects of CODc,, TN （total nitrogen）, and NO3--N in the wastewater were analyzed.[ Result ] The average removal rates of CODcr, TN, and NO3- -N reached 47.7%, 23.6% and 34.5% when the C/N ratio of influent was around 2. In addi- tion, a stable bio-film was formed very well in the secondary effluent with low C/N ratio and hardly degradable organic pollutants. The pollutants could be removed effectively because of the excellent surface characteristics and compositions of filamentous bamboo. [ Conclusion] The research provides a new method to treat WWTP effluent with low C/N ratio.

Advances in Research of Characteristics and Removal of Microplastics in Sewage Treatment Plants

Microplastic pollution has become a worldwide issue.The discharge of sewage treatment plants(STPs)or wastewater treatment plant(WWTPs)is an important way for microplastics to enter the environment.This study reviewed the sources and occurrence characteristics(type,size,color and components)of microplastics in domestic and foreign sewage plants.It elaborated the removal principles of microplastics by primary,secondary and tertiary treatments.In addition,the removal effects of various treatment units and different processes on microplastics were summarized.In the future,the removal mechanism of microplastics in sewage treatment plants should be discussed in more depth,so as to further improve the removal rate of microplastics by optimizing and transforming traditional sewage treatment processes.Therefore,it is necessary to develop new technologies/processes specifically for the removal of microplastics and promote them to practical applications.

Why Should We Bother on Measurement in Wastewater Treatment Operation?

The question of wastewater treatment and control is reflected from a very specific viewpoint: the low priority given to accurate and useful measurements within wastewater treatment. The matter is discussed from four various perspectives, that may be labelled “Legal understanding”;“Needs for accurate measurement results already in the planning and design stage”;“The measurement problem and human behaviour”;“The understanding of the short term and long term dynamics and changes in pollution and flow loads on a wastewater treatment plant (WWTP)”. All these aspects bring about much improved needs for an accurate and frequent measurement scheme both for pollutants and flows entering a WWTP. The conclusion is stated as follows: A far more and well elaborated on-line measurement system at the plants would become a needed tool for improved water environment protection at lower costs.

Full scale application of combined SBF-AS process for municipal wastewater treatment in small towns and cities in China

The combined submerged biofilm （ SBF）-activated sludge （AS） process for treatment of municipal wastewater in a small city in China is described in this paper. The process exhibited high removal efficiencies for carbonaceous substances, nitrogen and phosphorus which mainly took place in the combined SBF-AS biore- actor. The SBF-AS bioreactor was divided into pre-anoxic, anaerobic, anoxic and aerobic zones from inlet to outlet, in which fixed biofilm carriers were packed. Excellent performance had been obtained under normal operating conditions in more than one year of operation in Dong＇ e municipal WWTP, Shandong province, with mean removal efficiencies of BOD5 93.4%, COD 88%, SS 92%, NH4 - N 82. 1%, TP 75% and TN 66.7%, and quite high effluent quality such as BOD5 6 to 10 rag/L, COD 20 to 40 rag/L, SS 5 to 10 rag/L, TN 10 to 20 rag/L, NH4 - N 4 to 8 mg/L and TP 0. 6 to 1.0 mg/L. The effluent was reused multi-purposely, such as toilet flushing, green belt watering and artificial lake pounding. Simultaneous nitrification and denitrification took place due to the DO gradient in biofilm in aerobic zone of the SBF-AS bioreactor, which made TN removal efficiency improved remarkably in system. Some activated sludge was returned from final clarifiers to the bioreactor for phosphorus removal. The process had the advantages of low investment and low operational/ maintenance （O/M） costs, low sludge yield and was preferably employed in small towns and cities.

深圳沙河水质净化厂及3#调蓄池工艺设计要点及特点

沙河水质净化厂设计规模为旱季10万m^(3)/d,雨季额外处理10万m^(3)/d初期雨水,3#调蓄池设计规模为15.3万m^(3)。污水及初期雨水处理采用预处理+多段厌氧-好氧(AO)+二沉池+磁混凝高效沉淀池+精密过滤+紫外消毒的工艺,出水水质执行深圳市地方标准《水质净化厂出水水质规范》(DB 4403/T 64—2020)B级标准,其中总氮(TN)≤8 mg/L。污泥处理采用离心浓缩+低温热干化工艺,处理后含水率≤40%。作为国内首个将水质净化厂与初期雨水调蓄池深度融合的全地下式水污染治理综合体,项目采用多段AO耦合“3W法”(Wet-Weather-Wastewater法),并以此为核心提出了一种实现大规模污水及初期雨水高标准协同处理的系统解决方案,且无需大幅度增加污水处理设施体量、投资和运行成本。

污水处理厂中典型肠道病毒的分布与检测方法及其风险评估

新冠肺炎威胁了全球经济和公众健康,其在粪便和污水中的检出表明了存在粪口传播的可能性。污水在城市污水处理系统中来源广泛,是水传播病毒的重要途径。为进一步开展污水处理设施中病毒的相关研究工作,文中分析了污水处理系统中典型肠道病毒的定量分布现状,总结了污水处理流程中病毒的灭活机制,并对国内外污水处理厂的肠道病毒研究进展进行归纳。此外,梳理了污水处理厂样本中典型肠道病毒的浓缩及检测方法,最后结合定量微生物风险评价(quantitative microbial risk assessment,QMRA)分析方法,讨论了病毒的浓度、感染概率及其潜在的健康风险。研究对国内病毒排放标准和风险评价体系的建立进行了探讨,为实现污水处理厂肠道病毒全过程风险管理和后续处理处置相关规范的制定提供参考和理论支撑。

纯膜MBBR+磁混凝沉淀工艺在广东省某城市污水厂提标改造中的应用

广东省某城市污水处理厂于2003年建成并投入运营,该污水处理厂原工艺为“厌氧UASB+高负荷生物滤池+固体接触池+生物絮凝沉淀池”,随着污水排放标准的不断提升,该污水处理厂提标改造工作迫在眉睫。经过对多种工艺综合比选,确定将原工艺提标改造为“纯膜MBBR+磁混凝沉淀”,对提标改造工程开展工程设计,剖析提标改造后污水处理厂的运行效果。结果表明:以“纯膜MBBR+磁混凝沉淀”为主体的提标改造工艺优势显著,可节省面积约为2600 m^(2),提标改造后污水处理厂能够连续稳定运行,出水水质满足《城镇污水处理厂污染物排放标准》(GB 18918—2002)一级A标准和《水污染物排放限值》(DB 44/26—2001)第二时段一级标准的较严值。

Impact of wastewater treatment plant effluent discharge on the antibiotic resistome in downstream aquatic environments:a mini review

Antimicrobial resistance(AMR)has emerged as a significant challenge in human health.Wastewater treatment plants(WWTPs),acting as a link between human activities and the environment,create ideal conditions for the selection and spread of antibiotic resistance genes(ARGs)and antibioticresistant bacteria(ARB).Unfortunately,current treatment processes are ineffective in removing ARGs,resulting in the release of large quantities of ARB and ARGs into the aquatic environment through WWTP effluents.This,in turn,leads to their dispersion and potential transmission to human through water and the food chain.To safeguard human and environmental health,it is crucial to comprehend the mechanisms by which WWTP effluent discharge influences the distribution and diffusion of ARGs in downstream waterbodies.In this study,we examine the latest researches on the antibiotic resistome in various waterbodies that have been exposed to WWTP effluent,highlighting the key influencing mechanisms.Furthermore,recommendations for future research and management strategies to control the dissemination of ARGs from WWTPs to the environment are provided,with the aim to achieve the“One Health”objective.

超薄玻璃基板深加工项目生产废水预处理工程设计

某废水处理工程建设规模为17800 m^(3)/d,文中介绍了该处理工程的概况、工艺流程以及主要构筑物的工艺设计。工程预计进水组成中,工业废水占有相当的比例,主要以电子废水为主。为解决废水可生化性较差、污水处理难度较大的问题,预处理采用高效水解工艺,降低工业废水毒性,改善废水可生化性,确保二级处理系统稳定运行。污水处理主体工艺推荐采用较长泥龄延时曝气,强化脱氮两级AO工艺,提高难降解有机物去除率。绝大部分进水都具有强酸性或者强碱性,且酸碱性波动范围较大,容易对污水处理流程造成冲击,对污水处理建构筑物造成较大腐蚀。此外,在废水处理站进水端设置较长停留时间的调节池,对来水进行均质调节,在一定程度上可以使废水的pH处在较为稳定的范围内;在废水处理站设置监测排放池,尾水排放前仍有应急调节pH的可能,确保尾水达标排放。通过技术经济比较论证,本次扩能工程拟采用不同类污水分质组合处理的工艺技术路线,提高处理效率,降低建设及运行成本。采用先进的上流式水解污泥床水解反应池池型,并加盖除臭、景观绿化,收集和处理构筑物内的臭气。调试运行结果表明,项目工艺流程及参数设置能够满足各类废水处理排放要求。

工业园区混合废水处理厂工程设计与探讨:以福建某化工废水处理厂为例

福建某工业园区污水处理厂二期设计规模为2.0万m^(3)/d,工业园内的废水主要为石化工业废水。经过对工业园废水水质等特点的充分分析,该工程确定了“企业分类收集池+细格栅及曝气沉砂池+调节池(合建事故池)+水解酸化池+初沉池+生物反应池+二沉池+芬顿高级氧化+三沉池+反硝化深床滤池+加氯消毒”的工艺路线。该工程设计出水水质执行《城镇污水处理厂污染物排放标准》(GB 18918—2002)中的一级A标准,污水厂部分概算工程费用为27906.73万元。该项目结合先进工艺和精细化设计,探讨了工业园区混合污水处理厂的部分设计要点,为国内类似工业污水厂提供一定思路和案例参考。

污水处理过程中双酚A的环境健康风险分析综述

双酚A(BPA)是市政污水处理厂常见的内分泌干扰物。作为一种新污染物,BPA具有低剂量、较高毒性的特征,对生态环境及人类健康存在潜在影响。文章系统总结了污水处理厂中BPA常见去除方法及其特点,通过分析部分污水处理厂再生水中BPA残留现状,得出BPA的主要去除途径为污泥吸附和生物降解,且其处理效果受设备参数、操作条件等综合因素影响。文章同时对不同工艺流程中BPA去除效果进行对比分析,指出了深度处理工艺对提高BPA去除效果的重要性。环境健康风险评价表明,现阶段污水处理过程中的BPA对人类健康风险较低,处于可接受范围,但其潜在风险仍值得人们关注,亟需探究科学合理的去除手段和完善的风险评价方法。最后,文章针对污水处理过程中BPA环境健康风险分析方面研究提出了合理化建议。

疫情影响下长沙市某污水处理厂水量水质统计分析

为保障城市污水处理厂的安全运行和达标排放,文中选取长沙市某污水处理厂近6年进水水量和进出水水质数据进行统计和分析。结果表明:该污水处理厂的日均进水量在2018年—2023年3月近6年期间,于2020年达到最低,主要是受2020年年初新冠疫情所采取的封控措施影响;当年的进水水质受疫情和降雨量的双重影响,除2022年外,2020年BOD_(5)、COD_(Cr)和SS浓度较其他年份均大幅下降,而氨氮、TN和TP浓度降低相对较小。2022年进水BOD_(5)和SS低于其他年份可能是受2022年相对严重的疫情和干旱天气的影响,管道中污染物沉积进行厌氧水解导致。以疫情初始的2020年数据为研究对象,该年内各水质指标的进水浓度波动范围较大,总体上在冬季相对较高,在1月底—2月底和夏季偏低。实测出水水质浓度均达到设计出水水质标准,其中SS的去除率最高,而TN的去除率最低,改良式序列间歇反应器(MSBR)能够去除大部分的TN和氨氮。进水BOD_(5)/COD_(Cr)、BOD_(5)/TN和BOD_(5)/TP的平均值分别为0.58、4.95和46.34,1月底—2月底受疫情影响出现短暂的急剧变化,但总体进水可生化性较好、碳源充足,可采用生物除磷工艺。在碳源不足时,为保证出水达标,可考虑化学辅助除磷。研究结果可为疫情影响下类似污水处理厂的设计和运行提供参考。

武汉市某污水处理厂地下式扩建设计案例

武汉市S污水处理厂已建规模为35万m^(3)/d,规划规模为60万m^(3)/d,扩建规模为10万m^(3)/d,出水标准高于《城镇污水处理厂污染物排放标准》(GB 18918—2002)一级A标准。厂内有多套处理工艺、多处进水入口和排放出口,改造难度较大。经论证,扩建工程选用地下式构筑物,最大限度节约现有用地,并为远期扩建预留条件。工艺流程采用“多级预处理+改良AAO生化池+膜生物反应器(MBR)池+次氯酸钠接触消毒”,运行至今出水稳定达标。S污水处理厂是武汉市唯一一座兼有地上式及地下式处理构筑物的污水厂,文章总结了污水厂地下式扩建的设计思路、设计参数和设计经验,作为同类污水厂改造的参考。

不同负荷梯度对污水厂活性污泥的产酸性能分析

活性污泥发酵产酸有利于实现污泥资源化利用。文中以污水厂活性污泥为研究对象,在污水厂现场采用半连续碱性发酵方法,探究了先低梯度再高梯度长周期提负荷过程中污泥的产酸性能。结果表明:低梯度提负荷运行阶段,第112 d污泥的酸化率达到最大值,且乙酸占比为71.67%,游离氨(FA)质量浓度为(208±39)mg/L,低于250 mg/L,对微生物无抑制性。在高梯度提负荷阶段,第192 d污泥的水解率提高至41%,丁酸与戊酸的占比增加,FA质量浓度逐渐升高至450 mg/L时产酸性能下降。低梯度的优势菌Guggenheimella(24.88%)演变为高梯度的unclassified_Clostridiales(37.08%)。此外,当负荷为3250 mg TSS/(L·d)时,挥发性脂肪酸(VFAs)达到最大值(3339 mg COD_(Cr)/L)。经过50 d的稳定运行,污泥的产酸率为(606±30)mg COD_(Cr)/(g VSS)。合适的负荷梯度有助于污泥中有机物在碱性条件下(pH值=10.0±0.05)长期稳定连续生成VFAs。

城镇污水处理厂碳排放核算方法及特征

污水处理行业因其运行过程中消耗大量能源、排放温室气体的特征,在我国全力推进碳中和、碳减排的进程中引起了行业广泛关注。而如何系统全面量化城镇污水处理厂碳排放水平,是推进城镇污水处理厂优化运行管理、制定减排策略的重要前提。结合文献调研,以城镇污水处理厂运行阶段为研究对象,总结污水处理碳排放来源及特征的研究现状,分析直接碳排放、间接碳排放和负碳排放等不同来源碳核算方法的原理及特点,探究其适用场景及局限性,并提出污水处理碳排放核算方法研究和应用的发展趋势分析与建议,为发展污水处理领域碳排放评估新技术提供借鉴和参考。

改良Bardenpho+浸没式超滤工艺在污水处理厂的应用

华中地区某市政污水处理厂已建一、二期工程设计规模为20万m^(3)/d,出水执行《城镇污水处理厂污染物排放标准》(GB 18918—2002)一级A标准。本次三期扩建工程设计规模为20万m^(3)/d,是国内首个采用“改良Bardenpho+浸没式超滤膜”工艺的大型市政污水处理厂。2022年1月—12月,出水各项指标稳定达到一级A标准。其中,BOD_(5)、COD_(Cr)、氨氮概率值为100%、99.7%、91.7%,达到《地表水环境质量标准》(GB 3838—2002)中Ⅲ类标准,TP稳定达到地表水Ⅳ类标准。该组合工艺结合了生化处理系统和膜处理系统两者的优点,抗冲击负荷能力强、占地面积小。在用地面积很紧张、尾水提标和再生水回用需求进一步提高的大趋势下,该组合工艺因具备实现更高、更稳定的出水能力,从而在新、改、扩建市政污水处理厂中具有广阔的运用前景。

污水处理厂扩建工程设计及运行实例

北方某城市污水处理厂设计总规模18.0×10^(4)m^(3)/d,其中扩建工程设计规模8.0×10^(4)m^(3)/d,出水执行《城镇污水处理厂污染物排放标准》(GB 18918—2002)一级A标准。根据进水水质和排放要求,设计采用“初沉池-多级AO生化池-高速气浮池-反硝化深床滤池”工艺。介绍了扩建工程的工艺流程、主要构筑物设计参数、设计特点,并对运行效果进行分析。实际运行数据表明,出水各项指标均能稳定达标,COD、SS、NH_(3)-N、TN、TP平均去除率分别达到88.90%、96.24%、97.31%、78.00%、92.87%。

污泥厌氧消化对干化焚烧运行的影响分析

2020年,随着上海市白龙港污水处理厂污泥处理处置二期工程建成投运,白龙港厂污泥处理系统的处理规模达486 t DS/d,为国内乃至亚洲最大的城镇污泥“厌氧消化+干化焚烧”处理系统,厌氧消化和干化焚烧工艺相结合的污泥处理路线并大规模工程应用在国内尚属首次。文章结合污泥厌氧消化系统大修停运前后,对该污泥处理系统中脱水、干化、焚烧运行情况的影响进行了分析比对,包括污泥性质、处理量、运行成本等方面。结果表明,对于该系统而言,污泥厌氧消化工艺有利于污泥干化焚烧的经济、稳定运行,对污泥处理系统碳减排、碳中和具有非常重要的作用,符合绿色、循环、低碳、生态的要求。

上海市中心城区污水处理厂污泥处理产物资源化利用工艺

城镇污水处理厂随着城市化进程的推进,污泥产量急剧增加,给污水处理厂带来了巨大的压力,污泥中存在有利用价值的微量元素,但还存在难降解有毒有害物质,若污泥得不到妥善的处置,将会引起严重的二次污染。文章结合上海市中心城区三大片区石洞口、竹园和白龙港3个不同污水处理厂污泥处理产物的特性,开展基于污泥处理产物资源化利用的处理处置工艺研究和污泥干化焚烧余热利用工程技术研究,形成污泥处理产物综合利用工艺体系与工程示范。基于实际运行数据和现场监测结果,研究不同处理系统对污泥的处理效果,实现污泥的资源化利用。