聚合铝水解聚合形态分布的影响因素研究

聚合铝的水解聚合形态有Ala、Alb、Alc，其中最佳絮凝形态Alb的含量是衡量聚合铝絮凝活性的主要指标。采用一次加碱法制备聚合铝时，水解聚合形态分布的主要影响因素依次为：碱化度，加热温度，氯化铝浓度，碱浓度。实验确定的优化工艺条件为：碱化度2．2，加热温度72℃，氯化铝浓度0．5mol／L，碱浓度0．7～1．0mol／L。检测结果表明：在优化工艺条件下，制备的聚合铝中Alb含量为80．26％。应用实验表明：在同等加药量的条件下，高Alb含量聚合铝对生活污水絮凝效果明显优于工业聚合铝和氯化铝。     

电絮凝净化含聚污水影响因素研究

目的为保障油田正常安全生产,促进油田含聚污水的循环利用。方法采用电絮凝技术单因素研究方法开展净化含聚污水的静态实验研究,探讨外加电流密度、极板间距、初始pH及聚合物浓度等因素对净化效果的影响规律。结果当初始pH为7.0,电流密度为4.0 m A/m2,极板间距为1.0 cm,电解16 min时,综合处理效果最佳。此时,含油量与浊度去除率分别为98.85%,99.93%,处理每克油平均消耗为0.0494 g的Al,处理每立方米含聚污水的能耗为0.2895 k Wh。污水中的聚合物浓度越小,净化效果越好。结论中性处理,极板间距为1.0 cm,外加电流密度为4.0 m A/m2,通电16 min是最佳处理条件。     

双铝电极电絮凝-微滤法去除饮用水中细菌的实验研究

天然水体中的细菌多以游离形式存在，主体物质为蛋白质，一般带有负电荷。本实验采用电絮凝-微滤法对饮用水进行杀菌实验的研究，并探讨了电流密度、极板间距、pH值、氯离子对杀菌效率的影响及杀菌机理。实验表明电絮凝-微滤杀菌效果显著，且在电流密度为15．8A／m^2，极板间距为1．0cm，pH值在酸性范围内杀菌效果比较好，此外氯离子的存在有利于除菌。     

钛基改性DSA电极氧化法去除水中全氟化合物

为了提高金属氧化物电极(DSA电极)的稳定性及催化活性,实现全氟化合物(PFCs)的高效降解,分别以溶胶涂覆法和电沉积法制备了改性DSA(Ti/SnO_2-ZnO)电极,并用于全氟辛酸(PFOA)和全氟辛烷磺酸(PFOS)的电化学降解过程研究.实验分别考察了电流密度、溶液初始pH、 PFOA与PFOS初始浓度对PFCs降解效果的影响.结果表明:两种方法制备的改性DSA电极表面均匀负载了SnO_2-ZnO复合涂层.在二维电极体系中,极板面积约为65.0 cm~2,电流密度为20.0 mA·cm~(-2),极板间距为15.0 mm,电解质为1.30 g·L~(-1)次氯酸钠溶液以及电解时间为150 min时,溶胶涂覆法和电沉积法所制备的Ti/SnO_2-ZnO电极对初始浓度为100 mg·L~(-1)的PFOA和PFOS分别在pH为3.50和6.50时去除效果最佳,分别达到了90.6%、94.6%和91.0%、93.7%;循环使用电极3次,其降解过程均符合准一级反应动力学,且电沉积法制备的电极效果优于溶胶涂敷法,表现出对PFCs类污染物稳定、高效的去除能力.     

Ti/Ti4O7阳极电化学氧化降解水中的美托洛尔

等离子喷涂法制备了钛基亚氧化钛电极(Ti/Ti_4O_7),以该电极为阳极,研究了电化学氧化法对水中美托洛尔的去除效果.考察了电流密度(5~25 mA·cm~(-2))、极板间距(5~25 mm)和初始浓度(3~50 mg·L~(-1))对美托洛尔电化学降解效率的影响;分析美托洛尔电化学降解过程中溶液总有机碳(TOC)和毒性的变化,鉴别反应中间产物并计算其毒性.研究表明:Ti/Ti_4O_7阳极电化学降解美托洛尔反应符合一级反应动力学规律(R20.95),降解效率随电流密度的增大而增大,随极板间距和初始浓度的增大而减小;TOC去除率在反应40 min后可达56.5%;反应过程中产生了质合比为266、250、223和207的中间产物,造成美托洛尔溶液的生物毒性在电化学反应过程中先升高后下降.     

电絮凝技术处理镀铜废水的研究

电絮凝技术处理镀铜废水中,研究了溶液的pH值、电流密度、极板间距、电解时间、以及Cu2+的初始浓度等因素时电絮凝技术对镀铜废水处理效果的影响;结果表明:在pH值为6.5～8、极板间距为50mm、电流密度60mA/cm2、电解时间为80 min反应条件下,电絮凝法净化低浓度镀铜废水效果较好,可以使废水中重金属离子去除率达99.7%以上,COD的去除率达90%以上.     

电絮凝法去除水中微量叔丁醇的研究

采用电絮凝法对水中微量的叔丁醇(TBA)进行去除,分别考察了电极材料、极板间距、电流密度、溶液初始pH值对叔丁醇去除效果的影响.结果表明,以铝为阳极、不锈钢为阴极,极板间距为1.4cm,电流密度为20mA/cm²,溶液初始pH值为8时,电解120min后叔丁醇的去除率为80.4%,此时铝阳极实际损耗量(1.93kg/m³)大于理论损耗量(1.61kg/m³).同时,叔丁醇的去除过程可用准一级反应动力学方程进行预测.絮体特性分析表明,在电絮凝去除叔丁醇的过程中除AlO(OH)、Al(OH)₃絮体吸附、絮凝作用外还存在阳极氧化过程,使得叔丁醇被氧化为醛、酮等小分子物质.     

聚合铝水解聚合形态分布的影响因素研究

聚合铝的水解聚合形态有Ala、Alb、Alc,其中最佳絮凝形态Alb的含量是衡量聚合铝絮凝活性的主要指标。采用一次加碱法制备聚合铝时,水解聚合形态分布的主要影响因素依次为碱化度,加热温度,氯化铝浓度,碱浓度。实验确定的优化工艺条件为碱化度2.2,加热温度72℃,氯化铝浓度0.5mol/L,碱浓度0.7～1.0mol/L。检测结果表明在优化工艺条件下,制备的聚合铝中Alb含量为80.26%。应用实验表明在同等加药量的条件下,高Alb含量聚合铝对生活污水絮凝效果明显优于工业聚合铝和氯化铝     

电絮凝法去除合并净化槽出水中的磷

对于下水道未普及地区合并净化槽去除氮化合物是有效的,但除磷效果并不理想。为了找出合并净化槽出水深度处理技术,研究采用电化学絮凝法处理合并净化槽出水,实验测定了电流密度、极板间距、通电时间以及电极材料等主要参数对合并净化槽出水中磷的去除率的影响,并确定了采用铝板为电极材料时的最佳除磷条件。结果表明:电流密度、极板间距和通电时间三个作用参数均能影响除磷效果,对合并净化槽出水中磷的去除率最高可以达到100%。在实验范围内,得到以铝板为极板去除合并净化槽出水中磷的最优操作条件为:极板间距2cm,电流密度4mA/cm2,通电时间10min左右。并且根据反应动力学实验证明了电絮凝除磷反应为一级反应,其反应速率常数k=0.2103。因此,电絮凝法能够有效地去除合并净化槽出水中的磷,并且具有实际的推广应用价值。     

掺硼金刚石薄膜电极对高浓度含藻水的灭活研究

以BDD为阳极,不锈钢为阴极,利用BDD电极良好的电化学特性研究BDD电极对含藻水的电化学氧化效果。考察了电流密度、极水比(A/V)、极板间距、初始pH、初始藻细胞浓度对杀藻效果的影响,并分析了一定条件下能耗与时间的关系。结果表明电流密度、A/V、初始藻细胞浓度对杀藻效果的影响较显著,而极板间距对杀藻效果的影响不明显,初始pH在4时灭藻效果最好,在初始阶段碱性条件比中性及弱酸性条件灭藻效果好。当电流密度为17 mA/cm~2,A/V为9.75 m~(-1),极板间距为0.7 cm,初始pH为7.0,初始藻密度浓度为1.2×10~9~1.4×10~9的条件下,BDD电极电化学氧化灭藻呈一级动力学特征(k=0.032 4,R~2=0.997),在电解时间90 min内可取得良好的灭藻效果,耗能37.69 kW·h/m~3,且能耗与电解时间呈现良好的线性关系。     

聚合氯化铝与有机高分子复合絮凝剂的形态分布研究--Al-Ferron和27Al-NMR相结合

主要研究了Al Ferron逐时络合比色法和2 7Al NMR法应用于聚合铝与有机高分子复合絮凝剂形态分布的测定 .结果表明 ,两种方法分别测定的Alb 和Al13 的结果具有一定的相关性 ;聚合铝与有机高分子复合后其形态分布发生了一定的变化 ,Alb(或Al13 )的含量有所降低 ,但仍是优势形态 ,Ala(或Al单)的含量基本保持不变 .     

A novel method to synthesize polyaluminum chloride with a membrane reactor

Al13 or Alb is usually regarded as the most efficient species of polyaluminum chloride(PAC), the performance flocculant for water treatment. This paper was intended to report a new method to synthesize PAC with high content Alb, by using the membrane reactor. NaOH solutions were managed to permeate slowly through the micropores of ultrafiltration membrane into AlCl3 solutions under the suitable transmembrane pressure(TMP). Meanwhile NaOH drops size was limited to nano-scale, resulting in dramatical reduction of the characteristic diffusion time and great increment of contact interface between the strong base and AI ions in solution to favor the formation of Al(OH)4^-, the precursor of AI,3, so few precipitates and much Alb are produced. When the initial concentration of AlCl3/NaOH is 0.40/2.0 (mol/L), MWCO = 10000, TMP = 0.0085 MPa, T= 305 K and B(molar ratio of OH^-/Al^3 ) = 2.25, the quantity of Alb attains about 80%. The results of ^27Al-NMR determination showed that the Al13 content is equal to Alb content. And our PAC product has shown better flocculation effects than the commercial product.     

Preparation of high concentration polyaluminum chloride with high content of Alb or Alc

A novel membrane distillation concentration method was used to prepare high concentration polyaluminum chloride (PACl) with high content of Alb or Alc. 2.52 mol/L PACl1 with 88% Alb and 2.38 mol/L PACl2 with 61% Alc were successfully prepared. Three coagulants, AlCl3, PACl1 and PACl2 were investigated on their hydrolysis behavior and speciation under di erent conditions. The e ects of pH and dilution ratio on Al species distribution were investigated by ferron assay. Experimental result showed that pH had a significant e ect on Al species distribution for the three coagulants. Dilution ratio had little e ects on Alb and Alc distribution in whole dilution process except the beginning for PACl1 and PACl2. The results indicated that transformation of Al depends largely on their original composition. AlCl3 was the most unstable coagulant among these three coagulants during hydrolysis process. PACl1 and PACl2 with significant amounts of highly charged and stable polynuclear aluminum hydrolysis products were less a ected by the hydrolysis conditions and could maintain high speciation stability under various conditions.     

Al(Ⅲ) speciation distribution and transformation in high concentration PACl solutions

Effects of Al(Ⅲ) concentration and pH on the speciation of Al(Ⅲ) in polyaluminum chloride (PACl) solutions especially on the Al13 fraction were investigated. A series of PACl samples were prepared over the range of Al(Ⅲ) concentration from 0.01 to 2.0 mol/L with the B (OH/Al ratio) value from 1.0 to 2.5 by forced hydrolysis of AlCl3. The samples were characterized by ferron assay,pH and 27Al NMR. It was shown that the Al(Ⅲ) concentration had a dramatic effect on the hydrolysis processes and the species distribution of PACl was in relate to the decrease of pH. The fraction of Al species, Alb (or Al13) decreased and Alc increased with increase of total Al(Ⅲ) concentration. Under the condition of Al(Ⅲ) 2.0 mol/L, B = 2.5, the pH value was 2.73 and no Al13 could be detected. During diluting and aging, the species distribution evolved. The Al13 could then be detected again and the amounts increased with time. If the diluted samples were concentrated by freeze dry at -35℃ or heating at 80℃, the pH value and Al13 content would decrease with the increased concentration. It demonstrated that the key factor for formation of Al13 in concentrated PACl was pH value.     

Al(Ⅲ) speciation distribution and transformation in high concentration PACl solutions

Effects of Al（Ⅲ） concentration and pH on the speciation of Al（Ⅲ） in polyaluminum chloride （PACl） solutions especially on the Al13 fraction were investigated. A series of PACl samples were prepared over the range of Al（Ⅲ） concentration from 0.01 to 2.0 mol/L with the B （OH/Al ratio） value from 1.0 to 2.5 by forced hydrolysis of AICl3. The samples were characterized by ferron assay, pH and 27^Al NMR. It was shown that the Al（Ⅲ） concentration had a dramatic effect on the hydrolysis processes and the species distribution of PACl was in relate to the decrease of pH. The fraction of Al species, Alb （or Al13） decreased and Al0 increased with increase of total Al（Ⅲ） concentration. Under the condition of Al（Ⅲ） 2.0 reel/L, B = 2.5, the pH value was 2.73 and no Al13 could be detected. During diluting and aging, the species distribution evoIved. The Al13 could then be detected again and the amounts increased with time. If the diluted samples were concentrated by freeze dry at -35℃ or heating at 80℃, the pH value and Al13 content would decrease with the increased concentration. It demonstrated that the key factor for formation of Al13 in concentrated PACl was pH value.     

Optimum conditions for the formation of Al13 polymer and active chlorine in electrolysis process with Ti/RuO2-TiO2 anodes

A polyaluminum containing a high concentration of Al₁₃ polymer and active chlorine (PACC) was successfully synthesized by a new electrochemical reactor using Ti/RuO₂-TiO₂ anodes. PACC can potentially be used as a dual-function chemical reagent for water treatment. The obtained results indicated that the formation of Al₁₃ polymer and active chlorine, were the most active components in PACC responsible for coagulation and disinfection respectively. These components were significantly influenced by electrolyte temperature, current density, and stirring rate. It was observed that high electrolyte temperature favored the formation of Al₁₃. Increasing current density and stirring rate resulted in high current efficiency of chlorine evolution, thus favoring the generation of Al₁₃ and active chlorine in PACC. When the PACC (Al_T = 0.5 mol/L, basicity = 2.3) was prepared at the optimum conditions by electrolysis process, the Al₁₃ polymer and active chlorine in product reached above 70% of Al_T and 4000 mg/L, respectively. In the pilot scale experiment with raw polyaluminum chloride used as an electrolyte, PACC was successfully prepared and produced a high content of Al₁₃ and active chlorine products. The pilot scale experiment demonstrated a potential industrial approach of PACC preparation.     

聚硅氯化铝(PASC)混凝剂的颗粒大小及分子量分布

采用共聚与复合两种制备工艺,研制出碱化度（B） 为2.0 的具有不同 Al/Si 摩尔比的聚硅氯化铝（ 简称 PASC） 混凝剂．一种方法是将 NaCl加入到不同 Al/Si摩尔比的 AlCl₃6H₂O和聚硅酸混合液中;另一种方法是按一定的Al/Si 摩尔比将聚硅酸加入到聚合氯化铝液中．应用光子相关光谱（PCS） 和超滤膜过滤方法对 PASC 及聚合氯化铝（PAC） 的颗粒大小及分子量分布进行对比测定．结果表明,在PASC中,由于聚硅酸与铝水解聚合产物间的相互作用,生成了聚集体更大的聚合物,显著提高了聚集体的粒径,这种提高以共聚法最为明显; Al/Si摩尔比影响PASC的聚集度,Al/Si摩尔比越小, PASC 的聚集度就越大．     

电化学合成的聚合氯化铝的形态特征

采用电解法合成了聚合氯化铝溶液 ,并采用2 7AlNMR法、透射电镜等方法对其形态特征进行了研究 .2 7AlNMR法表明在电化学制备PAC中主要含有铝单体 ,铝的二聚体及Al13形态 .Al13含量与其溶液的碱化度 (B)有关 .在总铝浓度 (AlT)为 2 .0mol L ,B为 2 .2时Al13含量达到最高 ,占AlT 的 70 .2 % ,并在溶液中较稳定存在 .透射电镜实验结果表明 ,电解制备的PAC的粒度分布均匀 ,无团聚现象产生     

Advanced lignin-acrylamide water treatment agent by pulp and paper industrial sludge：Synthesis, properties and application

A novel flocculant LA （lignin-acrylamide polymer）, which was used as aid for aluminum sulfate and polyaluminum chloride in this study, was prepared by grafting acrylamide onto lignin that deriving from pulp and papermaking sludge. Physicochemical properties of LA were measured by X-ray photoelectron spectroscopy and scanning electron microscopy. The experimental outcome indicated acrylamide was grafted onto the lignin backbone successfully. The effects of LA addition were evaluated on coagulation performance and floc characteristics as a function of aluminum （Al） dosage, such as floc size, growth rate, strength and recoverability. Effects of different dosing sequences, Al dosed first and LA dosed first, were also investigated. LA used as coagulant aid markedly enhanced the removal efficiency of turbidity and dissolved organic carbon, especially at low Al dosages. The dissolved organic carbon removal efficiencies of aluminum sulfate and polyaluminum chloride at the Al dosage range selected in this study were improved more than 30% and 5% by LA, respectively. LA dramatically enlarged floc size and it was in the order： Al dosed first 〉 LA dosed first 〉 Al. Floc strength and recoverability were also improved by LA. LA played a significant role in charge neutralization, adsorption and bridging in floc formation.     

Preparation of high concentration polyaluminum chloride with high content of Alb or Alc

A novel membrane distillation concentration method was used to prepare high concentration polyaluminum chloride (PACl) with high content of Al_b or Al_c. 2.52 mol/L PACl₁ with 88% Al_b and 2.38 mol/L PACl₂ with 61% Al_c were successfully prepared. Three coagulants, AlCl₃, PACl₁ and PACl₂ were investigated on their hydrolysis behavior and speciation under different conditions. The effects of pH and dilution ratio on Al species distribution were investigated by ferron assay. Experimental result showed that pH had a significant effect on Al species distribution for the three coagulants. Dilution ratio had little effects on Al_b and Al_c distribution in whole dilution process except the beginning for PACl₁ and PACl₂. The results indicated that transformation of Al depends largely on their original composition. AlCl₃ was the most unstable coagulant among these three coagulants during hydrolysis process. PACl₁ and PACl₂ with significant amounts of highly charged and stable polynuclear aluminum hydrolysis products were less affected by the hydrolysis conditions and could maintain high speciation stability under various conditions.