Simulation and assessment of sludge concentration and rheology in the process of waste activated sludge treatment

The process of using flat-sheet membrane for simultaneous sludge thickening and digestion （MSTD） was employed. The variations of sludge concentration and rheology were characterized and simulated. Based on mass balance analysis, mathematical models were developed and successfully used to predict and evaluate the variations of sludge concentration and the digestion efficiency in the MSTD process. The apparent viscosity of sludge could be modeled as functions of mixed liquor suspended solids and shear rates. The sludge in the MSTD process showed both shear-thinning and viscoplastic behaviour, and under various shear rates different rheological models could be chosen to predict their flow behaviour. It was also found that sludge concentration and viscosity had significant correlations with membrane fouling in the MSTD process.

Evaluation of fungal potentiality for bioconversion of domestic wastewater sludge

This study was undertaken to screen the filamentous fungi isolated from its relevant habitats(wastewater, sewage sludge and sludge cake) for the bioconversion of domestic wastewater sludge. A total of 35 fungal strains were tested against wastewater sludge (total suspended solids, TSS 1%—5% w/w) to evaluate its potentiality for enhancing the biodegradability and dewaterability using liquid state bioconversion(LSB) process. The strains were divided into five groups i.e. Penicillium, Aspergillus, Trichoderma, Basidiomycete and Miscellaneous, respectively. The strains WWZP1003, SCahmA103, SCahmT105 and PC-9 among their respective groups of Penicillium, Aspergillus, Trichoderma and Basidiomycete played potential roles in terms of separation(formation of pellets/flocs/filaments), biodegradation(removal of COD) and filtration(filterability) of treated domestic wastewater sludge. The Miscellaneous group was not considered due to its unsatisfactory results as compared to the other groups. The pH value was also influenced by the microbial treatment during fermentation process. The filterability of treated sludge was improved by fungal treatment, and lowest filtration time was recorded for the strain WWZP1003 and SCahmA103 of Penicillium and Aspergillus groups respectively compared with other strains.

Influence of Na^+,K^+,Mg^(2+),Ca^(2+),and Fe^(3+) on filterability and settleability of drilling sludge

Solid–liquid separation is a vital step in drilling sludge disposal, and the filterability and settleability of drilling sludge are the main evaluating indicators for the separation process. The influence of Na^+,K^+,Mg^(2+),Ca^(2+),and Fe^(3+) on drilling sludge filterability and settleability was investigated in our research. The water content,filtration rate, supernatant volume and supernatant turbidity were measured to evaluate the filterability and settleability of drilling sludge. Meanwhile, the zeta potential, specific surface area of sludge flocs, particle size distribution and Fourier-transformed infrared spectra were employed to clarify the influencing mechanism.The experimental results showed that the filterability and settleability of drilling sludge were related to concentration and types of cations. Mg^(2+),Ca^(2+),and Fe^(3+) performed better than Na^+, K^+, and the cations with smaller hydrated radius got superior solid–liquid separation behavior at same valence. Finally, the spectra indicated that no chemical adsorption occurred between inorganic cations and drilling sludge flocs. The variation of surface charge and flocs growth after adding different inorganic cations were the reasons for the changes of the filterability and settleability.

δ-MnO_(2)在常温湿式空气氧化反应中的催化性能研究

采用水热法合成了δ-MnO_(2),考察了其作为常温湿式空气氧化反应的催化剂对模式污染物双酚A(BPA)的催化降解性能。结果表明,在一般环境的催化湿式空气氧化(AP-CWAO)系统中,50 mg/L的BPA在3 h内的去除率为52.0%,而在外电场辅助的催化湿式空气氧化(ECWAO)系统中,BPA在80 min内即可完全去除;在AP-CWAO中δ-MnO_(2)的表面催化机理主要是通过形成单线态氧(^(1)O_(2))对BPA实施氧化降解,在ECWAO中主要通过活化O_(2)分子生成活性氧种[O^(-)/O_(2)^(-)]*;BPA在不同反应系统中的降解途径不同,但降解中间体产物的毒性均明显降低;将δ-MnO_(2)作为ECWAO的催化剂应用于实际污泥滤液的处置,可使废水的COD去除率达到80.8%且循环稳定性良好。

Cake Filtration Equation Using tanⁿ<i>θ</i>Reduction Method

This study was completed by an extensive mathematical analysis. New equation to sludge filtration processes has been proposed for use in routine laboratory. The equation has been suggested to replace Ademiluyi’s cake filtration equation in view of the limitations of the latter. The new equation can be used for sludges whose compressibility factor is more than one but Ademiluyi’s cake filtration equation can only be used for sludges whose compressibility coefficient is less than one. The new sludge filtration equation was derived using tannθ reduction method. The generalized equation thus obtained resembles Ademiluyi’s equation in the mode of parameter combination except the presence of summation notation in the new equation.

悬浮污泥过滤工艺优化与应用

某油田采用SSF(悬浮污泥过滤)技术处理采出水,设计出水执行Q/SY DQ 0605—2006《大庆油田油藏水驱注水水质指标及分析方法》中规定的“8·3·2”标准。近年由于受诸多因素影响导致出站水质达标率低,为提高出站水质,该油田组织开展了现场调研,对采出水进行分析及处理工艺评价,找出了影响达标率的4个关键因素,制定了相应优化对策。依据调研情况,从3个方面开展技术攻关研究:优化药剂,开展水处理工艺药剂筛选,优选杀菌剂,提升杀菌效果,同时筛选SSF工艺药剂,提升悬浮污泥层密实度;优化工艺,开展SSF工艺污泥层构建现场试验及水力冲击试验,并重新校核SSF工艺处理能力;优化管理,调整工艺运行参数,延长沉降段沉降时间,定期组织容器清淤、收油、排泥工作,提高油、悬浮物固体的去除率。通过以上工作,实现了出站水质中菌类浓度达标率100%,滤后含油浓度达标、悬浮物固体浓度下降,逐步提高了出站水质达标率。结果表明,对SSF处理工艺进行的优化与应用能够促进出站水质指标的提升,对今后采出水站优化运行、改扩建等方面具有很好的指导意义。

活性炭联合正弦波电场促进污泥脱水

利用活性炭联合正弦波电场促进污泥脱水,通过对泥饼电流、温度及泥饼、滤液的性质分析探究活性炭对污泥脱水的促进机理。结果表明,活性炭可以提升污泥导电性,增强污泥中的电化学反应,从而降低了泥饼含水率。在占空比为100%,投加量为5%污泥干重时,泥饼含水率为43%;活性炭可以吸附滤液中有机物组分,相比未投加,投加5%活性炭的总有机碳值降低了1.708g/L,降低了滤液处理成本。

游离氨对老龄填埋污泥脱水液短程硝化的影响

针对老龄填埋污泥高氨氮低碳氮比(C/N)的特点,采用两级AO-MBR工艺探讨短程硝化处理实际老龄填埋污泥脱水液的可行性,在获得稳定的污染物去除效果的前提下,重点考察游离氨(FA)对短程硝化稳定性的影响。结果表明,亚硝酸盐氮(NO_(2)^(-)-N)积累率(N_(NAR))与FA浓度呈二次相关,在较高FA浓度下,一级硝化池(O1)池的N_(NAR)超过50.0%,最高达76.9%,实现了短程硝化,微生物菌群结构信息表明O1池中氨氮氧化菌(AOB)的物种丰度远高于二级硝化池(O2),且O1池中AOB的物种丰度是NO2--N氧化菌(NOB)的10倍以上;FA对AOB的抑制作用符合底物抑制动力学Haldane模型,拟合得到,AOB的最大比增殖速率(μmax)为0.34 g N/(g VSS·d),毒性抑制常数(K_(i))为143.4 mg/L,半饱和常数(K_(s))为38.3 mg/L,综合考虑进水的波动性与实际生产应用,系统FA质量浓度控制在40~80 mg/L为宜。研究结果为未来老龄填埋污泥脱水液处理设施的设计和运行提供了参考。

污泥深度脱水技术在市政污泥处理中的应用

市政污泥是城市生活和工业生产的副产品,其处理与处置一直是环境保护和资源回收利用的重要环节。污泥的深度脱水处理在现代城市环境管理中发挥重要作用,如提高污泥固含率、减轻环境污染等。基于此,对市政污泥传统脱水技术进行概述,并重点介绍多种污泥深度脱水技术的原理、工艺优缺点,旨在为进一步推广和应用污泥深度脱水技术提供理论支持。

压滤式污泥过滤比阻测定方法

根据污泥机械脱水机理,建立了污泥比阻测试模型,设计了一种压滤式污泥比阻测试装置.结果表明:压滤法测得的污泥比阻Rp与布氏漏斗过滤实验测得的比阻Rv具有较好的一致性,两者线性相关系数R2=0.99,最大相对误差为8.0%,最小相对误差为1.0%,平均相对误差为5.0%;滤板开孔率的大小不会影响污泥比阻的测定,但当开孔率小于4.0%时,过滤介质和滤板的阻抗Rm(ε)随滤板开孔率的增加而减小,开孔率大于4.0%时,Rm(ε)与开孔率无关.分析了布氏漏斗测定污泥比阻时有效面积的影响;压滤式比阻测定仪测定污泥比阻时,实验压力的选取以获得适宜的过滤速度为宜,压力的改变对实验结果的影响较小;采用正压法,实验压力很容易维持恒定,通过测定活塞位移随时间的变化测定污泥的比阻,测量精度高,还可直观地反映污泥脱水速度的快慢.

脱水滤液中Mg^(2+)、PO_4^(3-)和NH_4^+浓度对鸟粪石形成的影响

以污泥脱水滤液为研究对象,考察了按照等化学计量比改变Mg2+、PO43-和NH4+的初始浓度、单独改变NH4+初始浓度和单独改变Ca2+初始浓度对鸟粪石回收效果的影响。结果表明:在按照等化学计量比改变Mg2+、PO43-和NH4+初始浓度的条件下,对Mg2+、PO43-和NH4+的回收率均随其初始浓度的增大而提高;保持Mg2+和PO43-浓度均为5.00 mmol/L,当NH4+的初始浓度提高到12.00 mmol/L时,约有90%的PO43-参与了鸟粪石的生成;Ca2+不仅可与Mg2+争夺PO43-而占据鸟粪石晶体赖以继续生长的活性位,而且还能与H2PO4-争夺OH-,抑制H2PO4-向PO43-转化并参与生成鸟粪石,同时造成对NH4+的回收率降低。

Zn-Al类水滑石磷吸附剂的制备及其吸附性能

采用共沉淀法制备了一系列Zn-Al类水滑石吸附剂,并考察了制备条件对其磷酸盐吸附性能的影响。结果表明,在制备温度为70℃、共沉淀剂为NaOH、陈化时间为6h及焙烧温度为300℃时得到的Zn-Al类水滑石对城市污水处理厂污泥脱水液中磷酸盐的吸附效果最好,其饱和吸附容量达72.46mgP·(g吸附剂)-1。该吸附剂吸附水中磷的动力学拟合效果表现为假二级动力学方程>Elovich方程>假一级动力学方程。吸附等温线符合Langmuir吸附模型。

ZnAlLa类水滑石对污泥脱水液中磷酸根的吸附

通过共沉淀法合成了ZnAlLa三元类水滑石,并考察了其结构特征和对磷酸根的吸附性能。结果表明,在保持类水滑石层状结构的条件下,La的适量掺杂可增强吸附剂对磷酸根的吸附。当Zn∶Al∶La摩尔比为2.00∶0.90∶0.10时,ZnAlLa类水滑石在24h内对污泥脱水液中磷酸根的吸附量为35.15mgP.g-1,比无La时的吸附量提高了41.9%。300℃焙烧处理后,ZnAlLa样品转化为亚稳态的复合金属氧化物,同时比表面积明显增加,其磷酸根吸附量约为焙烧前的1.48倍。ZnAlLa对磷酸根的吸附在pH变化及竞争离子存在时表现出较强的稳定性。该吸附剂对污泥脱水液中磷酸根的吸附符合假二级吸附动力学;吸附等温线表现为Langmuir型。

Zn-Al类水滑石吸附污泥脱水液中磷的研究

为了开发一种新型除磷吸附剂,将二价金属离子(Mg2+、Zn2+、Cu2+、Ni2+、Co2+)和三价金属离子(Al3+、Fe3+)分别组合,用共沉淀法制备了不同金属组成的类水滑石,研究了类水滑石及其焙烧产物的磷吸附效果。结果表明:Zn/Al摩尔投料比为2∶1的类水滑石300℃焙烧4 h,得到的吸附剂对城市污水处理厂污泥脱水液中磷的吸附容量最高,约40.77 mg/g;在pH中性和弱碱性条件下,Zn-Al-2-300对水中磷的吸附效果较好,吸附动力学符合假二级动力学方程,吸附等温线符合Langmuir吸附等温式;5%NaOH+10%Na2CO3溶液对载磷类水滑石的磷解吸效果最好,其解吸率约为91.17%。

污泥脱水性能参数——比阻检测的若干问题研讨

分析了实验压力和含固率对污泥比阻测量的影响,讨论了比阻计算中几个重要参数-单位体积滤液产生的污泥干重!、有效过滤面积A以及粘度的测量",旨在提高比阻测量值的精确度和可比性。

污泥比阻实验中几个问题的探讨

根据长期实验教学中所取得的经验,对污泥比阻实验中几个参数的确定和经常碰到的一些问题,提出了自己的看法和解决的办法,为比阻实验的可操作性提供了帮助。

新型复合混凝剂改善污泥脱水性能的研究

为改善污泥的脱水性能,采用3种常见药剂复配成新型复合混凝剂——FO混凝剂对污泥进行调理。通过污泥沉降性能和过滤性能试验,确定FO混凝剂中3种药剂的最佳配比为1∶2∶0.05,投加量为9.15%(固体药剂质量占干污泥质量的百分数)。最佳配比的FO混凝剂可以更好地改善污泥的沉降性能,并可使污泥比阻值由2.03×109s2/g下降到0.29×109s2/g,从而很大程度上改善了污泥的脱水性能。中试结果表明,投加最佳配比的FO混凝剂,污泥经压滤后泥饼的含水率为73.21%,固体回收率接近95%,处理湿泥的药剂费用为1.95元/t。

复合调理剂对城市污泥过滤压榨特性的影响

采用连续进料的实验装置进行城市污泥脱水试验,深入研究了聚合氯化铝和生石灰的添加对城市污泥过滤和压榨特性的影响。结果表明聚合氯化铝的添加有利于形成更大的絮体,生石灰的添加提高了滤饼的渗透性,当聚合氯化铝和生石灰的添加剂量分别为6%和20%(与污泥中干固相的质量比)时,过滤比阻由6.5×1013降至7.9×1012 m·kg-1,压缩系数由1.4降至0.9。压榨理论分析表明聚合氯化铝和生石灰的添加降低了滤饼的黏性和弹性,提高了滤饼中粒子的蠕变性能,导致主压榨阶段的作用减小(从0.098降至0.017),而第三压榨阶段的作用增加(从0.159增至0.298)。另外,较高的压榨压力有利于滤饼中粒子的蠕变、结合水的去除以及滤饼固含量增加,但由于结合水的去除速率较慢,较高压榨压力对应于较长的压榨时间。

水厂排泥水处理的化学调质研究

通过测量Zeta电位、界面沉降性能及比阻,对应用高分子絮凝剂、表面活性剂、石灰、酸和碱进行水厂排泥水的化学调质处理效果进行了研究.结果表明:有机高分子絮凝剂对污泥的调质效果明显优于无机絮凝剂,且调质效果随絮凝剂相对分子质量的增大而加强;阳离子型表面活性剂十六烷基三甲基氯化铵(CTAC)调质对污泥处理有促进作用而阴离子型表面活性剂十二烷基硫酸钠(SDS)却有负面影响;投加石灰能有效地降低污泥比阻(SRF),但对污泥沉淀无明显改善且增加了泥饼干重;污泥的沉淀和脱水性能随pH值的降低而改善.