从铝形态转化角度分析AlCl3的混凝性能

应用Ferron逐时络合比色法,从铝形态转化角度对AlCl₃混凝性能进行了研究. 结果表明,AlCl₃的混凝性能与其发生二次水解反应后水解产物形态中的Al_b所占比例成正比,而影响AlCl₃水解产物中Al_b所占比例的主要因素是体系中的pH. 混凝过程中的水系组成及浓度和AlCl₃投加量的不同均会引起体系pH变化,从而影响AlCl₃水解产物中Al_b所占比例,最终影响AlCl₃的混凝效果.AlCl₃在混凝过程中所表现出的水解程度大、产生H+多的特征,使其在高碱度体系和高浓度有机酸体系的污水处理中效率更高.      

Al13形态在混凝中的作用机制

从铝的水解形态转化角度考察了铝盐在高碱度和高有机物浓度水体中的混凝行为.结果表明,铝盐的混凝效能是与混凝过程中的Al13含量成正比.高投药量时氯化铝(AlCl3)既可以有效调节水体pH值又能在混凝过程中原位水解产生较多的Al13形态,因而混凝效能要高于聚合氯化铝(PACl).在铝盐混凝中,调节pH值到6～7之间可以控制铝形态分布从而达到提高混凝效能和减少残留铝的目的.在调节pH值强化混凝的方法中使用传统铝盐的效果要好于无机高分子絮凝剂.     

铝盐混凝除砷影响因素及机制研究

铝盐混凝法被广泛应用于饮用水除砷工程.本研究选取三氯化铝(AlCl3)和富含Al13的聚合氯化铝(PACl)为絮凝剂,考察铝形态、pH值、腐殖酸(HA)以及共存阴离子对砷去除的影响与机制.结果表明,2种絮凝剂对As(Ⅲ)去除效能较低,对As(Ⅴ)去除率可达到近100%.pH影响混凝过程中铝形态分布,从而对铝盐混凝除砷效能产生重要影响.铝盐除砷效能与混凝过程中的Al13形态含量呈正相关关系.由于竞争吸附作用,HA和部分共存阴离子对砷的混凝去除产生负面影响.HA对混凝效能影响与絮凝剂投药量相关,投药量越低,则影响越大.PO34-和F-对混凝除砷效能影响显著,SiO23-、CO23-和SO24-对混凝除砷效能影响较小.本研究将对饮用水强化混凝去除原水中砷具有指导意义.     

Al13形态在混凝中的作用机制

从铝的水解形态转化角度考察了铝盐在高碱度和高有机物浓度水体中的混凝行为.结果表明,铝盐的混凝效能是与混凝过程中的Al₁₃含量成正比.高投药量时氯化铝(AlCl₃)既可以有效调节水体pH值又能在混凝过程中原位水解产生较多的Al₁₃形态,因而混凝效能要高于聚合氯化铝(PACl).在铝盐混凝中,调节pH值到6～7之间可以控制铝形态分布从而达到提高混凝效能和减少残留铝的目的.在调节pH值强化混凝的方法中使用传统铝盐的效果要好于无机高分子絮凝剂.     

混凝沉淀过程中铝系混凝剂的形态转化规律

研究了模拟配水中硫酸铝和氯化铝2种传统铝凝聚剂和2种聚合氯化铝(PAC)絮凝剂在混凝过程中的形态转化规律以及原水浊度和溶解性有机碳(DOC)对残余铝形态分布的影响.结果表明,在低浊体系中,投加铝系混凝剂是导致出水余铝升高的主要原因;但在高浊体系中,铝系混凝剂,尤其是聚合铝具有一定的除铝功能;混凝沉淀过程中传统铝凝聚剂的残余铝总量明显高于聚合铝混凝剂的残余铝总量;聚合铝混凝剂的残余铝全部为悬浮态铝,传统铝混凝剂的残余铝中还存在着胶体态铝和溶解态铝.原水浊度和DOC浓度增加,会提高残余铝中胶体态铝和溶解态铝的含量.     

腐殖酸絮凝体形成过程中初期搅拌条件对其形态结构的影响

以腐殖酸为研究对象,采用硫酸铝为混凝剂进行混凝杯罐实验,借助PDA在线监测系统、图像解析法及粒子图像测速技术分析评价絮凝体的构造特征,着重探讨了混凝过程中初期快速搅拌条件对絮凝体形态结构的影响.结果表明,快速搅拌条件对腐殖酸絮凝体的形成过程及形态结构有着显著影响.最佳快速搅拌条件为:搅拌历时l min,搅拌强度300 r·min-,此时形成的絮凝体结构密实,抗剪切能力强,整体性能最优,絮凝体分形维数、强度及平均粒径分别为1.8842、0.164 N·m-2、0.43 mm.腐殖酸絮凝体的形成包括不溶性微粒的产生及初期颗粒的形成与结合等过程,其中,不溶性微粒的形成及初期颗粒的致密化过程是决定最终絮凝体形态构造的重要环节,而快速搅拌条件影响着混凝剂扩散混合效果和初期颗粒的形成速率与致密化程度,这也是初期快速搅拌条件对于腐殖酸混凝过程有显著影响的一个重要因素.     

搅拌条件对强化混凝去除给水微细颗粒的影响研究

对珠江水系原水进行了强化混凝处理实验,利用颗粒计数器测定混凝前后水中1～40μm微细颗粒的数目与分布,研究了搅拌条件对微细颗粒的去除影响。     

IPF-PACl混凝动力学研究:形态组成的重要性

应用一种新近发展起来的基于浊度脉动测定的混凝监测技术结合经改进的传统混凝烧杯试验方法 ,对具有不同形态组成的聚合铝 (PACl)产品的混凝性能进行了细致地研究 .结果表明 :聚合铝不同形态在混凝过程中起着十分重要的影响作用 .混凝反应途径随预制后产品形态分布的不同而得到改变 .其中 ,A1b 是起电中和作用的主要形态 .PACl中A1b 的含量越高 ,其电中和能力越强 ,因此大大增加了颗粒间的碰撞效率 .然而 ,PAC2 5则表现出更为优越的混凝性能 ,在于其中A1c 含量的不同而引发“静电簇”混凝效应 ,导致混凝的快速动力学过程     

颗粒物悬浮体系中聚合铝凝聚絮凝形态表征 (Ⅰ):Al-Feron法的应用研究

应用Ａｌ－Ｆｅｒｒｏｎ法于悬浮体系中聚合铝的形态分布表征，对其中的主要影响因素进行探讨，就不同碱化度聚合铝的形态分析进行实例研究．结果表明，混合方式对Ａｌ－Ｆｅｒｏｎ法的应用具有一定的影响作用．比色管混合测得Ａｌａ为２１．５４％，低于磁力搅拌方式结果（２４．５２％，２５．２２％，２５．０６％）．应用磁力搅拌方式可以获取较好的重复性与更多初期反应信息．颗粒物的存在对反应的影响主要取决于其浓度与粒度分布，成一定线性关系，可以从中加以扣除．在本实验范围内因其溶解所产生的影响可以忽略不计．对多个碱化度聚合铝的实例研究表明，Ａｌ－Ｆｅｒｏｎ法完全适用于颗粒物悬浮体系中的形态分布表征     

颗粒物悬浮体系中聚合铝凝聚絮凝形态表征 (Ⅰ):Al-Feron法的应用研究

应用Ａｌ－Ｆｅｒｒｏｎ法于悬浮体系中聚合铝的形态分布表征,对其中的主要影响因素进行探讨,就不同碱化度聚合铝的形态分析进行实例研究。结果表明,混合方式对Ａｌ－Ｆｅｒｒｏｎ法的应用具有一定的影响作用。比色管混合测得Ａｌａ为２１．５４％,低于磁力搅拌方式结果（２４．５２％,２５．２２％,２５．０６％）。应用磁力搅拌方式可以获取较好的重复性与更多初期反应信息。颗粒物的存在对反应的影响主要取决于其浓度与粒度     

Synchronous removal of CuO nanoparticles and Cu2+ by polyaluminum chloride-Enteromorpha polysaccharides: Effect of Al species and pH

Copper oxide nanomaterials have been extensively applied and can have serious impacts when discharged into the aquatic environment, especially when complexed with humic acid (HA) to form composite contaminants. As an innovative recycled coagulant aid, Enteromorpha polysaccharides (Ep) were associated with polyaluminum chloride (PACl) (denoted as PACl-Ep) to simultaneously remove CuO nanoparticles, Cu²⁺ and HA in this study. The influence of different Al species coagulants (AlCl₃, PACl_b and PACl_c) and water pH on coagulation performance, floc properties and reaction mechanisms was investigated in detail. Results showed that in the three PACl-Ep systems, PACl_b-Ep gave the highest removal efficiencies for turbidity and Cu²⁺, and the best UV₂₅₄ removal effect was reached by using PACl_c-Ep. Higher contents of Al_b and Al_c contributed to great coagulation performance because of their stronger bridging and sweeping effects. For all the Al species coagulants, alkalescent conditions were more conducive to removing Cu and HA compared to acidic conditions. Additionally, smaller and more agminated flocs with great recovery ability were formed by PACl_b-Ep and PACl_c-Ep systems (bridging and enmeshment effects cooperated with the chelated reticular structure formed by the Ep and Al species). Similarly, due to the increased hydrolysis and hydroxide precipitates, flocs formed under the condition of alkalescence were smaller, denser and stronger compared with weakly acidic conditions.     

混凝过程中铝与聚合铝水解形态的动力学转化及其稳定性

采用Ｆｅｒｒｏｎ逐时络合比色法，并结合电泳测定研究了混凝过程中氯化铝和聚合氯化铝的水解形态动力学转化及稳定性。结果表明，ＡＣ在混凝过程中所形成的水解形态完全不同于ＰＡＣ的预制水解聚合形态，其电荷及分子量均明显低于聚合铝且不稳定，ＡＣ随混凝条件如投加浓度、ＰＨ和混合时间而变，而ＰＡＣ－２５水解聚合形态不随混凝条件变化，始终保持稳定状态，ＡＣ水解沉淀规律与理论计算相符并形成无定形Ａｌ（ＯＨ）３絮体颗粒     

Effect of in-situ formed Al hydrates through long-term aging on enhanced particle destabilization by PACl coagulation

Aging of polyaluminum chloride (PACl) coagulants could significantly influence hydrolyzed Al speciation ruling coagulation performance. The goal of this study was to investigate Al species transformation through long-term aging and its impact on coagulation performance. Two kinds of commercial coagulants (PACl-1 and PACl-2) were stored for in-situ aging tests in six months to evaluate Al species variation with time and the performance of coagulation with natural turbid waters. The results showed that CaSO₄ precipitation easily occur in a commercial PACl coagulant with time as it contains SO₄^2? and Ca²⁺. It also activates the precipitation of gibbsite Al(OH)₃ in PACl with aging. Through 180 days aging, both monomeric Al (Al_a) and polymeric Al (Al_b) substantially transform into colloidal Al (Al_c) and precipitated for both PACl coagulants. At low turbidity (10 NTU), PACl-1 has a superior turbidity reduction rate than PACl-2, while PACl-2 performs a little better turbidity reduction at high turbidity (1000 NTU) regardless of aging time. With aging time, an obvious decrease in turbidity reduction for PACl-1 coagulation is observed at low turbidity of 10 NTU, while the improvement in turbidity reduction for PACl-2 coagulation by enhanced sweep flocculation can be achieved as Al_b mostly transform into Al_c after 150 days aging. It is concluded that dominant in-situ formed Al_c after a long time hydrolysis can improve PACl coagulation efficiency in turbidity reduction by enhanced sweep flocculation, especially for low turbidity water, but the increase in preformed Al_c in PACl would worsen particle destabilization after aging.     

Fractionation of residual Al in natural water treatment from reservoir with poly-aluminum-silicate-chloride (PASiC): Effect of OH/Al, Si/Al molar ratios and initial pH

An aluminum fractionation study was conducted for a surface reservoir water treatment to understand the performance of poly-aluminum-silicate-chloride (PASiC) in terms of the residual Al fractions as a function of initial pH. The coagulation performance expressed as turbidity and organic matter removal was established as supporting data. Some extra data were evaluated in terms of the residual Al ratio of the composite PASiC coagulant. The main residual Al sources were the Al fractions derived from the use of PASiC. The turbidity and organic matter removal ability was optimal at initial pH 6.00-7.00, while the concentrations of various residual Al species and the residual Al ratio of PASiC were minimal at an initial pH range of 7.00-8.00. Under the conditions of OH/Al molar ratio = 2.00 and Si/Al molar ratio = 0.05, PASiC had superior coagulation performance and comparatively low residual Al concentrations. The Al fraction in the composite PASiC coagulant seldom remained under such conditions. Experimental data also indicated that the suspended (filterable) Al fraction was the dominant species, and organic-bound or organo-Al complex Al was considered to be the major species of dissolved Al in water treated by PASiC coagulation. Additionally, the dissolved inorganic monomeric Al species dominated the dissolved monomeric Al fraction.     

常规净水工艺对猛水蚤的去除机理及效果

为实现对桡足类生物泄露风险的高效控制,以猛水蚤为研究对象,开展了常规净水工艺对桡足类生物的去除作用机理及效果研究,重点研究了猛水蚤去除与絮体颗粒形态特性关系和在石英砂滤床的分布规律.结果表明:优化操作条件下,混凝沉淀和过滤对猛水蚤去除率均可达99%,最佳工况包括快速搅拌300 r/min(1min)、中速搅拌150 r/min(5min)和低速搅拌75 r/min(5min),聚合氯化铝(PAC)投加量10 mg/L,沉淀时间0.5h,滤速9m/h,过滤周期1d.混凝对猛水蚤的去除效率主要决定于猛水蚤与絮体的有效吸附,絮体颗粒粒径越大、分形维数越低,猛水蚤去除率越高;过滤水冲刷携带引起的被动迁移,是导致猛水蚤穿透砂滤池的主要原因,适当降低滤速和缩短过滤周期,控制猛水蚤被动迁移规模,可以达到提高猛水蚤去除率效果.     

聚合氯化铝中Al_(13)形态水解稳定性的研究

采用聚丙烯酰胺凝胶柱层析法分离纯化聚合氯化铝(PAC)中的Al13形态,并采用Al-Ferron逐时络合比色法对比研究了Al13形态、PAC和Al13三种样品水解稳定性。研究结果表明Al13形态无论是对于稀释倍数、介质的pH值和水解时间都具有较高的水解稳定性,是给水和废水处理中的一种较为有效的Al形态。     

Effects of low temperature on aluminum(III) hydrolysis: Theoretical and experimental studies

In this study, the effects of low temperature on aluminum(III) (Al) hydrolysis were examined both theoretically and experimentally by constructing a solubility diagram for amorphous aluminum hydroxide (Al(OH)3(am)) and a distribution diagram of hydrolyzed Al species. First, thermodynamic data of Al species at 4 degrees C were calculated from that at 25 degrees C. A well confirmed polymeric Al species, AlO4Al12(OH)24(7+)(Al13), was involved in building the diagrams and, correspondingly, the non-linear simultaneous equations with 13 degrees were resolved. Secondly, polarized Zeeman atomic absorption spectrophotometry (AAS), 27Al nuclear magnetic resonance (NMR) spectroscopy, and ferron-based spectrophotometry were applied for constructing the practical diagrams. The results show that a decrease of temperature from 25 to 4 degrees C caused the Al(OH)3(am) boundary on the solubility diagram to shift toward the alkaline side by about 1.0 pH unit and the minimum solubility of Al(OH)3(am) to reduce by 1.0 log unit. The distribution diagram indicates that the monomeric Al, Al13, and solid-phase Al(OH)3 were alternately the predominant species with the increase of pH value during Al hydrolysis. At 25 degrees C, Al13 was the dominant species in a pH range of 4.0 to 4.5, whereas at 4 degrees C, All3 was the leading species in a pH range spaced from 4.5 to 6.3. The predominant species changed from the monomeric Al to the solid-phase Al(OH)3 over the range of 1.8 pH units at 4 degrees C in comparison with the range of 0.5 pH unit at 25 degrees C.     

Influential factors of formation kinetics of flocs produced by water treatment coagulants

The growth rate and size of floc formation is of great importance in water treatment especially in coagulation process.The floc formation kinetics and the coagulation efficiency of synthetic water were investigated by using an on-line continuous optical photometric dispersion analyze and the analysis of water quality.Experimental conditions such as alum dosage,pH value for coagulation,stirring intensity and initial turbidity were extensively examined.The photometric dispersion analyze results showed that coagulation of kaolin suspensions with two coagulants(alum and polyaluminium chloride) could be taken as a two-phase process:slow and rapid growth periods.Operating conditions with higher coagulant doses,appropriate pH and average shear rate might be particularly advantageous.The rate of overall floc growth was mainly determined by a combination of hydraulic and water quality conditions such as pH and turbidity.The measurement of zeta potential indicates that polyaluminium chloride exhibited higher charge-neutralizing ability than alum and achieved lower turbidities than alum for equivalent Al dosages.Under the same operating conditions,the alum showed a higher grow rate,but with smaller floc size.