纳米聚硅酸铝铁絮凝剂的制备和性能

以硅酸钠、氯化铁、氯化铝为原料通过超声的方法制备了无机高分子纳米级聚硅酸铝铁絮凝剂(Nano-PAFSI),考察了其投加量、pH值、搅拌强度等因素对废水处理效果的影响,并对混凝机理进行了分析.实验表明,产品纳米聚硅酸铝铁(Nano-PAFSI)比普通聚硅酸铝铁处理废水效果更佳.对印染废水的浊度去除率为97.8%,色度去除率为94.6%,CODCr去除率为55.1%.     

一种复合脱色剂在印染废水中的应用研究

以甲醛、双氰胺、醋酸钠、氯化铵、氯化铝等为原料制备了一种印染废水脱色絮凝剂T-1。采用福州某纺织印染有限公司的印染废水为处理对象,以脱色率为主要考核指标,讨论了T-1的投加量、pH值、废水温度等对絮凝效果的影响。实验结果表明,双氰胺-甲醛缩聚物对印染废水具有优良的脱色絮凝效果,当投加量为100mg/L,废水温度为30℃,pH=8时,处理效果最佳,色度去除率达70%,COD去除率为78.3%。而且其絮凝性能明显优于聚合氯化铝(PAC)、聚合硫酸铝(PAS)絮凝剂。     

复合型高效絮凝脱色剂处理印染废水的研究

选用自制的双氰胺甲醛作为絮凝脱色剂处理高浓度印染废水,并与硫酸铝、三氯化铝作了对比实验。考察了投加量、pH值、反应温度等因素对絮凝效果的影响。实验结果表明在用量较少并且其它操作条件相同的情况下,双氰胺甲醛制备的脱色絮凝剂具有很好的絮凝脱色效果及COD_(Cr)去除率。在最佳的操作条件下(投加量120 mg/L,pH=7,反应温度25℃),此脱色絮凝剂对分散、酸性、活性印染废水的COD_(Cr)去除率分别为79.1%、78.5%、79.0%,对分散、酸性、活性印染废水的脱色率分别为94.0%、97.1%、72.9%,减轻了后续处理难度。在与无机絮凝剂的对比试验中,在相同的条件下有机絮凝剂的处理效果总体比无机絮凝剂的处理效果好。     

絮凝剂P(DMDAAC/DMC/IA/FA)处理印染和钻井废水的研究

二甲基二烯丙基氯化铵(DMDAAC)、甲基丙烯酰氧乙基三甲基氯化铵(DMC)、衣康酸(IA)、富马酸(FA)以不同配比共聚合成絮凝剂P(DMDAAC/DMC/IA/FA),得到絮凝剂I和II。研究了絮凝剂I和II对印染废水、钻井废水絮凝效果;由电镜扫描观察得到絮体的形貌图,非线性分维计算了絮体形貌的空隙分维数。结果表明,絮凝剂I在p H~8、投加量为0.75g/L时,对印染废水的CODCr去除率是45.9%;絮凝剂II在p H~10、投加量0.25g/L,对钻井废水的CODCr去除率为73.4%。不同合成条件得到的絮凝剂处理不同的废水效果不同。非线性分维数计算与试验结果一致。     

化学混凝法处理废纸制浆废水的研究

在对瓦楞箱板纸废纸制浆废水的特性作了较系统的分析研究的基础上 ,采用自制的混凝剂LPAS及商品絮凝剂聚合氯化铝PAC ,研究了二者的最佳使用条件与对该废水的处理效果 ,结果表明 :混凝剂LPAS比商品絮凝剂PAC对该废水有更好的处理效果 ,当混凝剂LPAS用量为1 50mg/L时 ,废水CODcr、TSS的去除率分别达 71 .8%和 83.6 % ,添加助凝剂FO4 2 4 0可使絮层的沉降速度加快。     

混凝沉淀法处理工业含氟废水的工艺研究

以半导体工业中的含氟废水为研究对象,采用混凝沉淀法对去除废水中氟离子进行了系统的工艺研究.以Ca(OH)2为沉淀剂,分别用聚合氯化铁(PFC)和聚合氯化铝(PAC)为混凝剂,并加入聚丙烯酰胺(PAM)助凝剂的方法,对药剂投加量、混凝剂种类、体系pH值、沉降时间等因素进行了实验探索.结果显示,PFC比PAC混凝效果好.当Ca(OH)2添加量为理论值的2.5倍,PFC用量为15mg/L,助凝剂PAM用量为4mg/L,体系的pH值在6～7时,其除氟效果最佳,此时废水中残留氟离子浓度可降低至5.5mg/L,远远低于国家规定的排放标准(10mg/L).     

油田作业废水絮凝过程中Zeta电位的研究

以川中矿区典型的压裂酸化废水为研究对象,考察了溶液pH值、无机混凝剂、有机高分子絮凝剂、以及无机混凝剂与有机高分子絮凝剂共同作用对废水Zeta电位的影响,从理论上对油田废水的絮凝特点进行了表征.实验结果证明:油田作业废水适合在酸性条件下进行絮凝处理;聚硅硫酸铁和阳离子有机高分子絮凝剂能使废水颗粒表面Zeta电位明显正移;当联合使用时,先加无机混凝剂,后加有机絮凝剂,能提高污水处理质量.     

两种两性高分子絮凝剂处理印染废水的研究

采用水溶液聚合方法制备两种两性高分子絮凝剂p(DMDAAC-co-FA)和p(DMC-co-DMAEMA-coAMPS)。对两种共聚合产物进行了傅里叶红外光谱(FT-IR)结构表征。用两种絮凝剂对印染废水进行絮凝试验的结果显示,絮凝剂p(DMDAAC-co-FA)在pH~7、投加量120 mg·L~(-1)时,CODCr去除率79.2%,色度去除率95.0%;絮凝剂p(DMC-co-DMAEMA-co-AMPS)在pH~7、投加量140 mg·L~(-1)时,CODCr去除率75.3%,色度去除率92.0%。通过对絮凝试验的絮体进行电镜扫描分析,采用非线性数学分形理论盒子法计算絮体形貌的空隙分维数Df,结果表明,絮体形貌的空隙分维数理论计算值与试验结果相符。     

复合型絮凝剂处理油墨废水的研究

以3-氯2-羟丙基三甲基氯化铵(CHPTMAC)、玉米淀粉、AlCl_3、Al_2(SO_4)_3、PAC、FeSO_4、FeCl_3等无机絮凝剂为原料制备出一种有机无机复合型絮凝剂(PMSF),并用于福建某油墨生产企业,系统考察了其对油墨废水进行处理时的最优条件。试验发现,PMSF对油墨废水有很强的絮凝和脱色效果,废水的COD去除率可达到86.8%,色度去除率可达到94.6%。对比试验结果表明,PMSF处理油墨废水的絮凝综合性能明显优于季铵化淀粉絮凝剂(MSF)。     

PFSS絮凝-膜分离法处理炼油废水

采用PFSS絮凝-膜分离法处理炼油废水.通过对PAC、PFS和PFSS的除油、CODcr、SS性能比较,确定了PFSS为较好的絮凝剂,探讨了絮凝剂用量、絮凝时间对絮凝效果的影响.通过对膜材料的分析,确定了聚氯乙烯-聚丙烯腈膜对炼油废水有较好的处理效果,探讨了进料流量、操作压力、温度对膜通量的影响.结果表明:当PFSS用量为50-70mg/L、反应时间为8min、进料流量为60L·h-1、操作压力为1.6Mpa、温度为40℃时,通过絮凝沉降、膜分离处理过程,炼油废水中的油、CODcr、SS的去除率分别达到98%、95%、93%以上.出水水质达到国家一级排放标准.     

A High Performance Flocculating Agent and Viscosifiers Based On Cationic Guar Gum

The anionic, cationic and nonionic polymeric flocculants endowed with several distinguished characteristics are being increasingly applied for the treatment of industrial effluents, municipal and wastewater. For the treatment of highly negatively charged particle suspensions, cationic flocculants are more efficient. A new route to guar gum derivatives bearing cationic groups has been developed. A series of cationic guar gums (Cat GG) have been developed by incorporating a cationic moiety N- (3- Chloro-2- hydroxypropyl) trimethyl ammonium chloride (CHPTAC) onto the backbone of guar gum in presence of NaOH. The various grades of cationic guar gum have been characterized by elemental analysis, FTIR spectroscopy and intrinsic viscosity measurement. The flocculation characteristics of these cationic guar gums have been evaluated in silica suspension by jar test. It has been found that among the various grades of cationic guar gums, the one with longer CHPTAC chains shows better performance. The flocculation characteristics of this best performing cationic guar are compared with those of various commercially available flocculants in silica suspension. Their rheological investigations have also been undertaken.     

Polyacrylamide Grafted Carboxymethyl Tamarind (CMT-g-PAM): Development and Application of a Novel Polymeric Flocculant

Water is scarce commodity now. Recycling of municipal wastewater, industrial and mineral processing effluents require treatment with the inorganic or organic flocculants. Both synthetic and natural polymers are used as flocculants. Natural polymers are biodegradable and are effective at very large dosages but are very shear stable. The synthetic polymers are highly effective flocculants at very small dosages and have high tailorability, but have poor shear stability. In the authors' laboratory, a novel polymeric flocculant has been developed by grafting polyacrylamide onto the backbone of carboxymethyl tamarind (CMT-g-PAM). Various grades were developed to optimize the best flocculant. The grafted polymers were characterized by various characterization techniques such as intrinsic viscosity measurement, FTIR spectroscopy, ¹³C-NMR spectroscopy, elemental analysis etc. The flocculation studies were carried out using turbidity test as well as settling test. The optimized CMT-g-PAM was then compared with some of the commercial flocculants available in national and international markets in colloidal suspensions and it has been found that our synthesized flocculant surpasses most of the commercial flocculants in performance.     

硫酸铝渣制备聚硅酸铝铁絮凝剂及应用性能研究

以硫酸铝渣为原料,研制出了一系列不同A1／Fe／Si物质的量比的聚硅酸铝铁絮凝剂（简称PAFsc）。考察了PAFSC的混凝、除浊、脱色等性能,并研究了A1／Fe／Si物质的量比、pH、投药量等因素对PAFSC性能的影响。处理模拟浊水时,当n（A1）／n（Fe）=2．0～4．0,n（M）／n（SiO2）=0．7～1．3时...     

絮凝处理对聚驱污水中部分水解聚丙烯酰胺浓度的影响

用常见无机和有机絮凝剂处理了聚驱污水,分别考察了絮凝剂单剂和复配处理后聚驱污水中残余部分水解聚丙烯酰胺(HPAM)质量浓度和透光率随絮凝剂剂量的变化.结果表明:采用无机絮凝剂处理聚驱污水时,残余HPAM质量浓度随絮凝剂剂量增加先减小后增大;采用有机絮凝剂处理聚驱污水时,残余HPAM质量浓度随絮凝剂剂量增加而线性增加.将无机絮凝剂与无机絮凝剂复配使用,则残余HPAM质量浓度与透光率成反比;将无机絮凝剂与有机絮凝剂复配使用,则残余HPAM质量浓度取决于复配体系中阳离子聚丙烯酰胺(CPAM)的添加量.     

油田含油废水处理絮凝剂的研究与应用

对国内外石油和石化行业含油废水处理常用絮凝剂进行了综合评述，较详细地介绍了它们的种类，使用性能和近期研究及应用进展情况，与无机、有机絮凝剂相比，复合絮凝剂具有效率高、实用范围广等优点。未来含油废水处理絮凝剂应向无毒，易生物降解的天然高分子改性絮凝剂、微生物絮凝剂和兼具多种功能的水处理剂方向发展。     

Study on Properties and Synthesize of a new Polymeric Aluminum Sulfate-silicate

The polymeric basic aluminum silicate-sulfate can be made from three substances, such as aluminum sulfate, sodium silicate and sodium aluminates. Adoption sort neote ric one synthesis,under high shear mixing condition to produce polymeric Aluminum Sulfate-silicate--inorganic macromolecule flocculants, that is liquid, PH is 3.0, molecular formula: AlA (OH) B (SO4) C (SiOx)Because inorganic macromolecule have capability of electricity neutralized, bigger molecular mass,strong capability of adsorption, and products are relative stabilize, more economical than organic macromolecule flocculants, innocuity and high effect compared with tradition flocculants.We can use the flocculants to make sewages purified .The sewages contain sulfur, oiliness, which are treated sewages of oil refining to organism treatment sump in parturition course of oil refining,and the sewages of dark and white in parturition course of paper mill. We study the properties of the flocculants, change of CODCr and effect of sewerage decolouring and so on.Thus fig. Can be seen to add the flocculants(0.1ml) to the sewages of the oil refining and the paper mill that effect is not distinctly. Yet increase of quantity to remove turbidity and floccules effect is distinctness. When the flocculants (0.5mi) be added to the dark sewage of, the penetrate light rate attain 90～98%, the sewage of the oil refining is about 90%, but when we make floccules experiment, the color of dark green and auras of the sewages of oil refining and the paper mill are all disappear, the PASS that add to the sewage will have certainly time to flocculate. When use pay attention to quantity and horary the connection.As a result in the sewages purified, those products form quickly, granule density is big, and subsided velocity is quickly, Floccules effect and capability of removing turbidity, removing CODCr are ascendancy than tradition flocculants - aluminates, and the remained aluminum of water treatment is little. It has preponderance property of sedimentation rapidity and purifying rate, and the capability be purified of flocculants is increase 50% than the AS. The flocculants uses little dosage in sewerage treatment. That has wide foreground of application, salience economy and society benefit, congruency extend and applied in sewerage Treatment field. The flocculants has predominant use property than the aluminum sulfate.     

Enhanced Harvesting of <Emphasis Type="Italic">Chlorella vulgaris</Emphasis> Using Combined Flocculants

In this study, a novel flocculation strategy for harvesting Chlorella vulgaris with combined flocculants, poly (γ-glutamic acid) (γ-PGA) and calcium oxide (CaO), has been developed. The effect of flocculant dosage, the order of flocculant addition, mixing speed, and growth stage on the harvesting efficiency was evaluated. Results showed that the flocculation using combined flocculants significantly decreases the flocculant dosage and settling time compared with control. It was also found that CaO and γ-PGA influenced microalgal flocculation by changing the zeta potential of cells and pH of microalgal suspension. The most suitable order of flocculant addition was CaO first and then γ-PGA. The optimal mixing speed was 200 rpm for 0.5 min, followed by 50 rpm for another 4.5 min for CaO and γ-PGA with the highest flocculation efficiency of 95 % and a concentration factor of 35.5. The biomass concentration and lipid yield of the culture reusing the flocculated medium were similar to those when a fresh medium was used. Overall, the proposed method requires low energy input, alleviates biomass and water contamination, and reduces utilization of water resources and is feasible for harvesting C. vulgaris for biofuel and other bio-based chemical production.     

Enhanced flocculation activity of polyacrylamide‐based flocculant for purification of industrial wastewater

The flocculation activity of commercially available anionic poly (acrylamide‐co‐acrylic acid), p (AAm‐co‐AA) has been significantly improved, without any inorganic coagulant aid. The effect of three types of surfactants, anionic sodium lauryl ether sulfate (SLES) (Palm Epimen), nonionic cocamide DEA, zwitterionic amphoteric Amphotensid B5, and one organic cation, trimethylammonium bromide (TAB) on coagulation/flocculation performance have been investigated. The performance has been analysed in terms of turbidity, total suspended solid (TSS), total iron (TI) content, and BTEX for treating two kinds of industrial wastewater, produced water (PW) and starch water. We have shown that adding a small amount of each of the studied surfactants, and especially cationic TAB, significantly increases the coagulation/flocculation performance without modifying pH levels. A combination of low dosage of flocculant (310 ppb) and TAB (310 ppb), after 5 minutes, presented 88%, 81%, and 62% reduction in turbidity, TSS, and TI content, respectively, whereas by using 5 ppm of flocculant alone (16 times more), only 76%, 75%, and 43% removal was obtained. The results reveal that TAB performs as an efficient coagulant booster. Compared with regular inorganic coagulants, it is more cost‐effective, reduces the consumption of treatment chemicals, and the pH‐dependency of contaminants removal.