Effect of solid contents on the controlled shear stress rheological properties of different types of sludge

Controlled shear stress (CSS) test was used to study the effect of solid contents on the corresponding rheological parameters for sludge. Three types of sludge with or without conditioning, including activated sludge (AS), anaerobic digested sludge (ADS), and water treatment residuals (WTRs), were collected for the CSS test. Results showed that the yield stress and the cohesion energy of the sludge networks were improved with increased total suspending solid (TSS) contents in most cases. For the conditioned AS/ADS and the raw WTRs, exponential law was observed in the relationships between cohesion energy of material networks or yield stress and the TSS contents, whereas for the conditioned WTRs, only exponential law dependence was found between the parameters of shear modulus or critical strain and the TSS contents.     

活性污泥的理化性质与絮凝调理投药量的关系

采用烧杯试验研究了活性污泥理化性质与絮凝调理投药量的关系,分析了活性污泥离心上清液黏度及其中胶体的Zeta电位和表面电荷密度、污泥絮体的粒度、分形维数和强度等理化性质指标随调理絮凝剂(CPAM,CZ-8698)投药量的变化规律,探讨了这些指标在确定絮凝调理最佳投药量方面的差异.结果表明,CZ-8698的投药量对污泥的脱水性能和理化性质均可产生明显的影响,基于毛细吸水时间(CST)、污泥比阻(SRF)确定的活性污泥絮凝调理的最佳投药量范围为4.28～7.13g.kg-1,对应的CST与SRF值分别为(12.62±1.39)s、0.56×1012m.kg-1.在此最佳投药量区间,污泥离心上清液中胶体的Zeta电位与表面电荷密度均由负值变为正值,污泥絮体的分形维数分别为1.09(一维)和1.51(二维),其表面不规则程度最低、结构较为密实;污泥絮体的粒径随着絮凝剂投药量的增加持续增大到mm尺度,但其强度在投药量高于4.60 g.kg-1以后逐渐趋于稳定.此外,当絮凝剂投药量低于上述最佳范围时,污泥离心上清液的黏度已经达到了最小值(1.24±0.04)mPa.s.     

铁负载污泥炭的表征及其促进PAM调理高级厌氧消化污泥的效能研究

本研究首先分析了铁负载污泥炭的物理化学性质,评估了铁负载污泥炭与有机高分子（聚丙烯酰胺,PAM）联合调理改善高级厌氧消化污泥脱水性的效能,研究了联合调理过程中污泥絮体特性与胞外聚合物（EPS）的变化特征.结果表明,单独投加污泥炭可以通过铁的电中和作用降低污泥颗粒间的静电排斥力,同时充当骨架材料改善污泥的脱水性能.此外,铁负载污泥炭可以有效去除污泥体系中大分子溶解性有机物,从而改善污泥的过滤性能.污泥炭和有机絮凝剂在污泥调理过程中表现出明显的协同作用,污泥碳和PAM的最佳投加量分别为250 mg·g^-1（以TSS计）和8 mg·g^-1（以TSS计）.激光共聚焦显微镜分析表明,PAM主要与污泥絮体中的蛋白质分子作用,从而促使污泥颗粒凝聚.     

Physical characteristics of conditioned anaerobic digested sludge – A fractal, transient and dynamic rheological viewpoint

The changes in the physical characteristics of unconditioned and conditioned anaerobic digested sludge (ADS) biosolids, such as capillary suction time (CST), yield stress, average size and fractal dimensions, were investigated through a CST test, transient and dynamic rheological test and image analysis. The results showed that the optimum polymer dose range was observed when CST or its reciprocal value was employed as an indicator. There were good correlations between the yield stresses determined from both a controlled shear stress test and a strain amplitude sweep test. The yield stress and storage modulus (G′) increased as the polymer dose increased in most cases. A frequency sweep test revealed that polymer conditioning could extend the frequency sweep ranges for their elastic behaviors over viscous behaviors as well as the gel-like structure in the linear viscoelastic range. These results implied that more deformation energy was stored in this rigid structure, and that elastic behavior became increasingly dominant with the addition of the polymer in most cases. In addition, both the average sizes and two-dimensional fractal dimensions for conditioned ADS biosolids presented a similar up-climax-down variation trend as the polymer doses increased, whereas the critical polymer doses at the highest average sizes or two-dimensional fractal dimensions, were different. Correlation analysis revealed that the conditioned ADS dewaterability was not correlated with the yield stresses, while the average sizes or the two-dimensional fractal dimensions for conditioned ADS biosolids could be taken as the indication parameters for ADS dewaterability.     

Physical characteristics of conditioned anaerobic digested sludge - A fractal,transient and dynamic rheological viewpoint

The changes in the physical characteristics of unconditioned and conditioned anaerobic digested sludge (ADS) biosolids,such as capillary suction time (CST),yield stress,average size and fractal dimensions,were investigated through a CST test,transient and dynamic rheological test and image analysis.The results showed that the optimum polymer dose range was observed when CST or its reciprocal value was employed as an indicator.There were good correlations between the yield stresses determined from both a controlled shear stress test and a strain amplitude sweep test.The yield stress and storage modulus (G') increased as the polymer dose increased in most cases.A frequency sweep test revealed that polymer conditioning could extend the frequency sweep ranges for their elastic behaviors over viscous behaviors as well as the gel-like structure in the linear viscoelastic range.These results implied that more deformation energy was stored in this rigid structure,and that elastic behavior became increasingly dominant with the addition of the polymer in most cases.In addition,both the average sizes and two-dimensional fractal dimensions for conditioned ADS biosolids presented a similar up-climax-down variation trend as the polymer doses increased,whereas the critical polymer doses at the highest average sizes or two-dimensional fractal dimensions,were different.Correlation analysis revealed that the conditioned ADS dewaterability was not correlated with the yield stresses,while the average sizes or the two-dimensional fractal dimensions for conditioned ADS biosolids could be taken as the indication parameters for ADS dewaterability.     

Enhancing sewage sludge dewaterability by bioleaching approach with comparison to other physical and chemical conditioning methods

The sewage sludge conditioning process is critical to improve the sludge dewaterability prior to mechanical dewatering. Traditionally, sludge is conditioned by physical or chemical approaches, mostly with the addition of inorganic or organic chemicals. Here we report that bioleaching, an efficient and economical microbial method for the removal of sludge-borne heavy metals, also plays a significant role in enhancing sludge dewaterability. The effects of bioleaching and physical or chemical approaches on sludge dewaterability were compared. The conditioning result of bioleaching by Acidithiobacillus thiooxidans and Acidithiobacillus ferrooxidans on sludge dewatering was investigated and compared with the effects of hydrothermal (121℃ for 2 hr), microwave (1050 W for 50 sec), ultrasonic (250 W for 2 min), and chemical conditioning (24% ferric chloride and 68% calcium oxide; dry basis). The results show that the specific resistance to filtration (SRF) or capillary suction time (CST) of sludge is decreased by 93.1% or 74.1%, respectively, after fresh sludge is conditioned by bioleaching, which is similar to chemical conditioning treatment with ferric chloride and calcium oxide but much more effective than other conditioning approaches including hydrothermal, microwave, and ultrasonic conditioning. Furthermore, after sludge dewatering, bioleached sludge filtrate contains the lowest concentrations of chroma (18 times), COD (542 mg/L), total N (TN, 300 mg/L), NH₄⁺-N (208 mg/L), and total P (TP, 2 mg/L) while the hydrothermal process resulted in the highest concentration of chroma (660 times), COD (18,155 mg/L), TN (472 mg/L), NH₄⁺-N (381 mg/L), and TP (191 mg/L) among these selected conditioning methods. Moreover, unlike chemical conditioning, sludge bioleaching does not result in a significant reduction of organic matter, TN, and TP in the resulting dewatered sludge cake. Therefore, considering sludge dewaterability and the chemical properties of sludge filtrate and resulting dewatered sludge cakes, bioleaching has potential as an approach for improving sludge dewaterability and reducing the cost of subsequent reutilization or disposal of dewatered sludge.     

高铁酸钾调理改善活性污泥脱水性能的反应机制研究

研究了高铁酸钾(K_2FeO_4)对处理活性污泥脱水性的效果,重点考察了不同pH和剂量条件下,K_2FeO_4调理对污泥过滤脱水特性和胞外聚合物(EPS)分布和组成的影响,以深入认识K_2FeO_4调理污泥的反应机制.研究表明,K_2FeO_4调理效果随pH值的降低而改善,其不仅有氧化裂解作用导致结合型EPS(BEPS)释放,同时其还原产物三价铁离子兼具混凝功效,能够通过电中和与界面吸附去除部分溶解性EPS(SEPS),同时压缩EPS结构,增强污泥絮体结构.此外,当pH值为3,K_2FeO_4投加量为0.1 g·g~(-1)(以TSS计)时,污泥过滤脱水速率和程度均达到最佳.过量投加K_2FeO_4(0.2 g·g~(-1),以TSS计)后,BEPS大量释放,污泥过滤阻力增加,脱水性能恶化.     

基于酸化与Fenton试剂处理的焦化污泥脱水过程及其重金属迁移研究

焦化废水污泥作为典型的危险废物,含有氰类、酚类、稠环芳烃与多环芳烃等有毒成分,严重影响人类健康与生态环境安全,焦化污泥减量化是其处理处置中重要一环.针对焦化废水污泥高有机物、高油含量特点,采用酸化+Fenton试剂进行复合调理改性,改性后污泥毛细吸水时间(Capillary Suction Time,CST)、比阻(Specific Resistance to Filtration,SRF)分别达到51.2 s和0.043×10¹³ m·kg^-1,药剂投加量通过响应表面法(Response Surface Method,RSM)进行优化,在实验室板框脱水实验中得到30%硫酸投加量为37.8 mL·L^-1,FeSO₄、H₂O₂和生石灰投加量分别为47.93、34.29和143.21 mg·g^-1DS时,脱水后泥饼含水率为55.82%,滤液pH为6.66,达到污泥深度脱水目标.采用酸化+Fenton试剂复合处理可使焦化废水污泥有效减量化,其良好的深度脱水效果能为后续的无害化处置奠定基础,并有效降低处置费用.     

剩余污泥厌氧消化甲烷生成势与产甲烷菌群多样性的比较研究

以AP、DH两污水处理厂的剩余污泥为基质,分别接种两厂的剩余污泥进行了厌氧消化甲烷(CH4)生成势实验(BMP).经改进的Gompertz模型和Michaelis-Menten模型回归分析可知,AP、DH两厂厌氧污泥的最大比产气速率数值接近[74.21 mL·(g·d)-1和51.99 mL·(g·d)-1],但对基质剩余污泥的半饱和常数Km差异较大(54 098 mg·L-1和19 005mg·L-1),DH厌氧污泥对该厂剩余污泥的亲和力较好.两个批次实验结束时TSS、CODT均有所下降,NH+4-N显著提高,且高污泥负荷F/M条件下水质变化趋势更为显著.实验前后末端限制性片段多态性(T-RFLP)分析结果与BMP实验结果相一致,实验结束后杂菌(Diverse)相对含量显著下降,产甲烷髦毛菌Methanosaeta spp.(280 bps)、产甲烷微菌Methanomicrobiaceae(80bps)和RC-I(389 bps)的相对含量皆有所提高,且DH-BMP样品产甲烷功能菌群相对含量提升程度高于AP-BMP实验前后变化.     

活化过硫酸盐对市政污泥调理效果的影响

常规污泥脱水技术只能将市政污泥含水率降到80%左右,难以满足日益严格的污泥处理处置要求.活化过硫酸盐产生硫酸根自由基SO4·-具有强氧化性,可用于破坏污泥的絮体结构.本研究利用Fe2+活化过硫酸钠(SPS)的方法进行污泥调理,以到达改善污泥的脱水性能的目的.结果表明,当Fe2+与S2O2-8投加量(以绝干污泥计)分别为25.88 mg·g-1、80 mg·g-1(Fe2+与S2O2-8摩尔比为1.1∶1)时,污泥毛细吸水时间CST和污泥比阻SRF降低率最大,滤液中蛋白质和多糖浓度达到最大.进一步的研究表明,污泥Zeta电位值由负向正变化,颗粒比表面积增大,絮体由密集的团状变成结构松散的层状结构,污泥脱水性能提高.     

基于Fe3+/EDTA-2Na的类芬顿对剩余污泥脱水性能的影响

剩余污泥的高含水率限制了对其后续处理以及资源化利用. 为了改善污泥脱水性能,利用Fe3+/EDTA-2Na类芬顿试剂作为调理剂强化污泥脱水,通过粒径分析、差示扫描量热仪(DSC)、傅里叶红外光谱(FTIR)和扫描电子显微镜(SEM)等方法对剩余污泥进行表征,探究其强化脱水机理. 结果表明:经过氧化调理后的污泥泥饼含水率降至67.8%,并有62.32%的结合水得以释放. 污泥胞外聚合物(EPS)结构被氧化破解,紧密结合的胞外聚合物(TB-EPS)中的多糖和蛋白质浓度显著减少;污泥絮体减小,但从SEM图可以看出絮体结构变得规整、平滑,且出现不规则孔洞,增加了污泥水分的输送通道,改善了污泥的脱水性能. FTIR分析表明,氧化处理后的污泥清液中水的吸收峰变小,多糖和蛋白质对应的吸收峰增强,而富里酸对应的峰消失. 研究显示,基于Fe3+/EDTA-2Na类芬顿的污泥调理可以高效氧化破解污泥,提高污泥脱水性能.      

水平电场作用下活性污泥的脱水研究

通过考察水平电场作用下活性污泥的性质（pH、电导率）、絮凝调理及电场因素（电压大小、电场应用方式、极板间距）对污泥电脱水效果的影响,确定了水平电场下污泥电脱水的最佳条件.结果表明,对于本研究的活性污泥,以水平电场为驱动力进行脱水,在原始pH（6.93）、电导率=1.46 mS·cm-1的条件下污泥电脱水效果最好;投加阳离子型聚丙烯酰胺（CPAM）可以使污泥脱水率提高30%～40%,缩短达到相同电脱水效果的时间,但对电脱水率的提高不显著.水平电场施加60 min,絮凝调理后污泥的电脱水率可达83.12%,而对应的原始污泥则需要120 min才能达到75.31%的电脱水效果.延迟电场应用对污泥电脱水效果产生抑制作用.此外,本研究确定的最佳脱水条件为：CPAM投药量为9 g.kg-1,电场强度为600V·m-1,极板间距为40 mm,电场应用时间为60 min.在上述最佳条件下对活性污泥进行电脱水,其含水率从99.30%降至95.15%,脱水率可达85.33%.     

Fenton试剂与骨架构建体复合调理剂对污泥脱水性能的影响

将Fenton试剂与骨架构建体联用作为复合调理剂开展了污泥调理及脱水试验.结果表明,赤泥与水泥作骨架构建体调理后,污泥脱水性能和脱水液pH均优于石灰与水泥调理污泥.以污泥比阻(SRF)为评价指标,开展了Fenton反应时间、初始pH及调理剂投加量对污泥脱水性能影响的单因素试验.当Fenton反应时间为90 min,初始pH为5,水泥、赤泥、Fe²⁺和H₂O₂的投加量(以污泥干固体质量计)分别为300、300、40和32 mg·g^-1时,污泥比阻降低率可达94.25%±0.21%.在此基础上,以泥饼含水率为响应指标,利用表面响应法对调理剂投加量进行优化.结果表明,水泥、赤泥、Fe²⁺和H₂O₂的投加量分别为287、287、46和37 mg·g^-1,泥饼含水率可降至47.7%±0.8%.调理后污泥的粒径减小,比表面积增大,粘度减小,Zeta电位由负变正,说明该复合调理剂能有效地破解胞外聚合物(EPS),提高污泥脱水性能.     

壳聚糖絮凝剂在活性污泥调理中的应用

研究了自制的壳聚糖絮凝剂在活性污泥调理中的应用,通过污泥比阻、上清液剩余浊度、泥饼含水率及沉降性能等的测定,重点分析了活性污泥脱水的pH范围、絮凝剂投量和壳聚糖分子量及其脱乙酰度对调理效果的影响,并与絮凝剂聚丙烯酰胺(PAM)和聚合氯化铝(PAC)作了比较,在此基础上还进行了双絮凝剂两段法处理污泥的初步探索。研究发现,壳聚糖作为活性污泥调理剂,投量(干污泥质量百分比)在0.8％～1.2％,pH值在5～8时即有较好的调理效果,与PAM效果基本相当,接近于8％～16％的PAC;壳聚糖相对分子量在30×10~4左右,脱乙酰度在70％左右时有较好的调理效果;双絮凝剂两段法处理污泥,在同等用量时效果好于单絮凝剂一段法。     

Effects of alkalinity on interaction between EPS and hydroxy-aluminum with different speciation in wastewater sludge conditioning with aluminum based inorganic polymer flocculant

Extracellular polymeric substances (EPS) form a stable gel-like structure to combine with water molecules through steric hindrance, making the mechanical dewatering of wastewater sludge considerably difficult. Coagulation/flocculation has been widely applied in improving the sludge dewatering performance, while sludge properties (organic fraction and solution chemistry conditions) are highly changeable and have important effects on sludge flocculation process. In this work, the alkalinity effects on sludge conditioning with hydroxy-aluminum were comprehensively investigated, and the interaction mechanisms between EPS and hydroxy-aluminum with different speciation were unraveled. The results showed that the effectiveness of hydroxy-aluminum conditioning gradually deteriorated with increase in alkalinity. Meanwhile, the polymeric hydroxy-aluminum (Al₁₃) and highly polymerized hydroxy-aluminum (Al₃₀) were hydrolysed and converted into amorphous aluminum hydroxide (Al(OH)₃), which changed the flocculation mechanism from charge neutralization and complexing adsorption to hydrogen bond interaction. Additionally, both Al₁₃ and Al₃₀ showed higher binding capacity for proteins and polysaccharides in EPS than monomeric aluminum and Al(OH)₃. Al₁₃ and Al₃₀ coagulation changed the secondary structure of proteins in EPS, which caused a gelation reaction to increase molecular hydrophobicity of proteins and consequently sludge dewaterability. This study provided a guidance for optimizing the hydroxy-aluminum flocculation conditioning of sludge with high solution alkalinity.     

Optimized production of a novel bioflocculant M-C11 by Klebsiella sp. and its application in sludge dewatering

The optimized production of a novel bioflocculant M-C11 produced by Klebsiella sp. and its application in sludge dewatering were investigated. The optimal medium carbon source,nitrogen source, metal ion, initial pH and culture temperature for the bioflocculant production were glucose, NaNO3, MgSO4, and pH 7.0 and 25°C, respectively. A compositional analysis indicated that the purified M-C11 consisted of 91.2% sugar, 4.6% protein and 3.9% nucleic acids（m/m）. A Fourier transform infrared spectrum confirmed the presence of carboxyl, hydroxyl,methoxyl and amino groups. The microbial flocculant exhibited excellent pH and thermal stability in a kaolin suspension over a pH range of 4.0 to 8.0 and a temperature range of 20 to 60°C.The optimum bioflocculating activity was observed as 92.37% for 2.56 mL M-C11 and 0.37 g/L CaCl2 dosages using response surface methodology. The sludge resistance in filtration（SRF）decreased from 11.6 × 1012 to 4.7 × 1012m/kg, which indicated that the sludge dewaterability was remarkably enhanced by the bioflocculant conditioning. The sludge dewatering performance conditioned by M-C11 was more efficient than that of inorganic flocculating reagents,such as aluminum sulfate and polymeric aluminum chloride. The bioflocculant has advantages over traditional sludge conditioners due to its lower cost, benign biodegradability and negligible secondary pollution. In addition, the bioflocculant was favorably adapted to the specific sludge pH and salinity.     

次氯酸钠与亚铁对污泥破解及脱水效果的影响

采用次氯酸钠（NaClO）与亚铁（Fe（II））结合处理污泥以提高污泥破解和脱水效能,考察了NaClO和Fe（II）投加量的影响,并通过定量和定性分析污泥中胞外聚合物质（EPS）的迁移转化,确定NaClO和Fe（II）对污泥脱水和破解的机制.试验结果表明,NaClO和Fe（II）投加量（以干泥固体计）分别为44 mg·g^-1和66 mg·g^-1时,污泥毛细吸吮时间（CST）从原泥的112 s下降到66.3 s.同时,NaClO/Fe（II）处理污泥能够使上清液中化学需氧量（COD）显著升高,并使污泥中紧密束缚型EPS（TB-EPS）和松散束缚型EPS（LB-EPS）转化成溶解性EPS（S-EPS）,导致S-EPS的溶解性有机碳（DOC）含量升高,而LB-EPS和TB-EPS的DOC含量降低.此外,NaClO/Fe（II）还能使污泥中有机物质矿化,使3种EPS中蛋白质类和腐殖酸类物质减少.NaClO和Fe（II）能够改善污泥脱水性能,强化污泥破解效果,利于污泥后续的处理处置.     

高铁酸钾-微波耦合对印染污泥脱水性能的影响研究

分别采用微波、微波耦合高铁酸钾对印染污泥进行脱水预处理.结果表明,适宜的微波辐射可改善污泥脱水性能.2320、3240、4000 W·L-1对应的最适时间分别是140 s、100 s和80 s.在3240 W·L-1的微波下辐射100 s后,污泥的沉降速率(SV30)、污泥比阻(SRF)和粘度较原污泥分别减少4.00%、18.89%、35.05%.同时,高铁酸钾的加入能更好地提高污泥脱水性能,其最佳投加量为0.1767 g·g-1(以SS计,下同),对应的污泥SV30、毛细吸水时间(CST)、粘度相比原污泥分别降低了13.50%、51.18%、40.79%.泥饼含固率相比原污泥则增加14.58%.微波耦合高铁酸钾能有效破坏污泥絮体结构.随着高铁酸钾投量增加,上清液的蛋白质含量持续增加,多糖含量则先增加后减少.     

采用生物沥浸法和化学法调理深度脱水污泥的堆肥效果:生产性试验

利用生物沥浸法和以添加石灰与三氯化铁为代表的化学法对污泥进行调理,继而采用隔膜厢式压滤机深度脱水是目前在我国应用较为广泛的工艺,但系统比较两种工艺所产生的污泥的堆肥效果的研究还很鲜见.为此,本试验分别对相同来源的污泥用两种方法进行调理后再用机械脱水,将获得的污泥饼进行工程化高温好氧堆肥,并以相同来源的常规脱水污泥(CS,指含水率80%左右的污泥)作为对照,探究其堆肥过程及产品性质的差异.结果表明,采用条垛式堆肥(条垛底宽2.8 m、高1.2 m、长10 m),生物沥浸污泥(BS)和石灰调理污泥(LS)堆肥所需辅料仅为CS的9.1%.尽管BS堆体中的NH+4-N含量始终最高,但其氨气挥发量仅为LS堆体的9.7%和CS堆体的31.4%.42 d时各堆体的CO2释放速率和水溶性C/N相比堆肥前均明显下降,说明堆体均已腐熟.LS堆肥产品的种子发芽指数(GI)仅为57.3%,而BS堆肥产品和CS堆肥产品的GI均为90%左右,显然后两者对种子的毒害已完全消除.此外,BS堆肥产品中的养分含量(N+P2O5+K2O)明显高于LS堆肥产品和CS堆肥产品,总养分分别高出28.5%和73.0%;其速效养分指标WSN亦分别高出40.6%和102%.综上所述,较之LS堆肥或CS堆肥,采用BS高温堆肥不仅可以显著减少辅料的添加量,且其堆肥过程中的氨气损失少,堆肥产品腐熟度好,养分含量高,因此,污泥生物沥浸处理-高温发酵技术是对推动堆肥后土地利用极有帮助的深度脱水工艺和资源化方法.     

藻形态及混凝剂组成对混凝-超滤过程的影响

为了保证藻类暴发阶段优质的饮用水供应,提高藻类的去除率,缓解藻类对水处理过程的影响,本研究以铜绿微囊藻(蓝藻)、小球藻(绿藻)和小环藻(硅藻)这3种不同形态藻细胞为研究对象,使用了3种具有不同铝形态分布的混凝剂[Al_2(SO_4)_3(AS)、Al_(13)、Al_(30)]进行混凝-超滤实验.在分离胞外有机物(EOM)的情况下,考察混凝过程中絮体的特性(粒径,强度因子,恢复因子)以及不同条件下形成的絮体对膜通量的影响.结果表明Al_(13)与Al_(30)的混凝作用以静电簇作用为主导,AS主要是以电中和作用为主导.对于铜绿微囊藻与小球藻体系,由于藻颗粒表面存在一定的凹陷,当Al_(13)与Al_(30)做混凝剂时,在投加量较低的情况下,吸附在颗粒表面凹陷处的混凝剂“失活”,其他部位由于仍带有一定的负电荷而造成絮体形成不明显,而AS做混凝剂时,混凝机制主要是电中和作用,可以明显降低颗粒之间的排斥力,在较低投加量下即可形成絮体.对于小环藻体系,由于其藻细胞呈现光滑的表面,Al_(13)与Al_(30)可有效发挥其静电簇作用机制,絮体在较低投加量下即可有效形成.膜通量与絮体粒径有明显的相关性,絮体粒径越大,超滤过程中形成的沉积层越疏松,膜比通量越大.