壳聚糖对药用膨润土悬浊液的絮凝效果

絮凝作用;壳聚糖对药用膨润土悬浊液的絮凝效果     

壳聚糖对印染废水的絮凝作用和脱色效果

壳聚糖可作为阳离子型和阴离子型絮凝剂 ,对无机化合物、极性有机化合物、蛋白质等产生絮凝作用[1] .壳聚糖无毒 ,对动、植物无害 ,用其作为絮凝剂的污泥可作肥料 .在环境保护方面具有广阔的应用前景 .本文报道直接用壳聚糖对印染厂废水处理的絮凝和脱色效果研究 .壳聚糖自制 ,广东省佛山市上朗针织漂染厂印染废水 ,上海分析仪器厂 72 2光栅分光光度计 ,可调多联搅拌器 .结果与讨论絮凝效果的测定参照美国材料与试验协会 ( ASTM)有关标准[2 ,3 ] .取印染废液 1 0 0 0 m L,快速搅拌约 1 min,降低转速至约 2 0～ 60 r/min进行慢速搅拌 ,记录…     

壳聚糖对鞣酸絮凝作用的研究

以壳聚糖为絮凝剂，采用絮凝法除去中药药液中的杂质。以鞣酸为研究对象，从鞣酸浓度，体系温度，ＰＨ絮凝剂用量粘均分子量等方面探讨其絮凝规律，用正交试验优化其絮凝条件，为实施中药药液的絮凝法精制工艺提供参考。     

利用壳聚糖的絮凝性质包埋酶的葡萄糖氧化酶电极

本文利用壳聚糖的絮凝性质，将葡萄糖氧化酶包埋在壳聚糖与多聚磷酸盐的絮絮沉淀中，操作简单，固定化效率高。研究了适合了酶电极使用的最佳固定化条件。     

壳聚糖改性凹凸棒土絮凝采收小球藻的研究

以壳聚糖改性凹凸棒土作为普通小球藻Chlorella vulgaris的絮凝剂,CaCl2为助凝剂,研究了絮凝采收小球藻的工艺条件。结果表明,最佳絮凝条件为:絮凝剂0.4g/L、壳聚糖/凹凸棒土为1∶12、助凝剂CaCl2为0.2g/L、溶液的pH为9.0,此条件下小球藻絮凝率达到95%以上。絮凝剂的扫描电镜图和BET比表面积(BET)数据显示,改性后的凹凸棒土以一定的空间结构状吸附连接壳聚糖,有效增加了絮凝剂的比表面积,有利于小球藻的吸附。研究采用的原料价格低廉、安全环保,絮凝剂的制备简单且絮凝效率高,可广泛用于工业化生产中微藻的采收。     

壳聚糖-丙烯酰胺接枝共聚及其絮凝性能

壳聚糖-丙烯酰胺接枝共聚及其絮凝性能;壳聚糖;丙烯酰胺;接枝共聚;絮凝     

甲壳素-壳聚糖对皂土悬浮液的絮凝

研究了三种摩尔质量大体相同而脱乙酰度分别为93%、78%和62%的甲壳素-壳聚糖在pH=3～6范围内对皂土悬浮液的絮凝性质, 并与非离子型絮凝剂聚丙烯酰胺作了比较, 证明含自由氨基的甲壳素-壳聚糖在酸性溶液中形成阳离子聚电解质后. 对带负电的皂土悬浮颗粒有很好的絮凝能力. 通过对上述三种聚合物的絮凝能力、在皂土颗粒表面的吸附量等测定, 认为絮凝中桥连机制起了主导作用, 但聚合物所带正电荷则有利于被皂土颗粒所吸附, 电中和还降低了颗粒间的静电排斥, 这都对桥连絮凝起了促进作用. 聚丙烯酰胺分子在水中不带电, 故当介质pH升高使皂土颗粒双电层变厚时, 絮凝能力迅速下降.     

一种复合絮凝剂的絮凝性能及应用研究

以淀粉为原料，通过化学改性研制出同时兼含羟基、氰基、酰胺基和季铵盐基团的两亲型高分子絮凝剂(ASF)，然后加入铝酸纳和硅酸钠，以一定的比例进行复配，制得复合型高分子絮凝剂CF-1，并综合研究了CF-l的絮凝性能。结果表明，CF-1对印染、造纸、皮革、制药等工业废水具有很强的絮凝和脱色效果，废水的色度去除率达96％以上，SS去除率达95％以上，CODCr去除率达74％以上。而且其絮凝性能明显优于阳离子聚丙烯蠢胺(CPAM)、聚合氯化铝(PAC)、硫酸铝以及硫酸亚铁等絮凝剂。     

壳聚糖/羧甲基壳聚糖金属配合物对氧自由基的清除作用研究

以NADH-PMS-NBT体系产生超氧阴离子自由基(o2-·)和EDTANa2·Fe(Ⅱ)-H2O2体系产生 羟自由基(·OH)来研究壳聚糖Cu(Ⅱ)、Zn(Ⅱ)配合物、羧甲基壳聚糖Cu(Ⅱ)、Zn(Ⅱ)配合物时氧自由基的 清除作用。结果显示配合物对O2-·和·OH均具有明显的清除作用,其中铜(Ⅱ)配合物对O2-·的清除活 性最高,而锌(Ⅱ)配合物比铜(Ⅱ)配合物具有更强的清除·OH的能力,羧甲基壳聚糖Cu(Ⅱ)、Zn(Ⅱ)配合 物与含有相同金属离子的壳聚糖配合物相比对O2-·和·OH具有更高的抑制活性。     

壳聚糖改性絮凝剂絮凝性能的研究

壳聚糖是一种性能优异的天然高分子材料。由于糖环上含有氨基,在酸性溶液中易形成阳离子型聚电解质,在水处理中显示出良好的絮凝性能。为了进一步提高壳聚糖的水处理性能,人们还通过化学方法制备高效壳聚糖改性絮凝剂材料。本文以一种壳聚糖改性絮凝剂——壳聚糖接枝聚丙烯酰胺共聚物为研究对象,以高岭土悬浊液为模拟水样,通过实验室烧杯实验,系统地研究了该材料的实际絮凝性能,考察了新型絮凝剂投加量和实际絮凝效果与原水温度、浊度的对应关系,并从絮凝机理角度讨论了絮凝剂投加量的变化规律。     

壳聚糖的液晶行为研究

用偏光显微术，平均折射率法和富立叶红外光谱法研究了壳聚糖的溶致液液晶行为，在二氯乙酸、甲酸、丙烯酸和３６％乙酸等溶剂中测得到的临界浓度都是８％（体积比）或４％～６％（重量比），与根据Ｆｌｏｒｙ理论得到了计算值相符，低的临界浓度值表明壳聚糖的链刚性比纤维素的大。     

丁酸壳聚糖液晶的织构研究

用偏光显微镜研究了一种新的液晶高分子－丁酸壳聚糖液晶的织构。丁酸壳聚糖能溶于十多种溶剂中形成胆甾型液晶相。指纹状织构是主要织构，此外还观察到鲜偏振场织构、滴状织构、平面织构和条带织构等，与纤维素衍生物的液晶态结构很相似。     

氰乙基羟丙基壳聚糖的溶致和热致液晶性研究

从壳聚糖出发先羟丙基化再氰乙基化,合成了氰乙基羟丙基壳聚糖(羟丙基的摩尔取代度为3.2,氰乙基的取代度为1.0).氰乙基羟丙基壳聚糖(CNHPCS)和羟丙基壳聚糖(HPCS)两者都有胆甾型溶致液晶性,浓溶液呈现指纹状织构.在二氯乙酸中,前者的临界浓度(29%,质量分数,下同)高于后者(17%).这一结果可以用引入氰乙基增加了分子间作用力从而使得链刚性增加来解释.CNHPCS在熔点193℃和分解温度220℃之间很窄的温区内观察到有热致液晶胆甾相.CNHPCS固体膜的胆甾相螺距采用激光小角光散射法测定,结果与偏光显微镜测得的数值一致.     

Chitosan based nonstoichiometric polyelectrolyte complexes as specialized flocculants

The aim of this work was to evaluate the flocculation of kaolin by using positively charged nonstoichiometric interpolyelectrolyte complex (N-PEC) nanoparticles formed by the interaction of chitosan with poly(sodium 2-acrylamido-2-methylpropanesulfonate) (NaPAMPS) and two random copolymers of AMPS with t-butyl acrylamide, comparative with chitosan. The flocculation efficiency was evaluated by optical density at 500 nm. The N-PEC nanoparticles were more effective than chitosan in the kaolin separation, especially at low molar ratios between charges, when the flocculation window was more then double at an optimum dose lower than that of chitosan. The main advantage of N-PECs is the increase of critical concentration for kaolin re-stabilization, the N-PEC particles adsorbed on the kaolin surface protecting them more efficient against re-dispersion. The influence of low molar mass electrolytes on the flocculation with N-PECs was also investigated.     

Flocculation Performance and Mechanism of Removing Pectin by N-hydroxypropyl Trimethyl Ammonium Chloride Chitosan

The cationic organic flocculant N-hydroxypropyl trimethyl ammonium chloride chitosan (HTCC) was used for flocculation of pectin, which was an impurity widespread in Chinese medicine water extractions, and the effects of the flocculant dosage, the pectin concentration, pH value, and the solution temperature on the flocculation efficiency were studied. FTIR spectra of pectin and its flocs were analyzed to determine the flocculation mechanism. The results showed that HTCC effectively flocculated the high-methoxyl pectin (HMP) and low-methoxyl pectin (LMP). The removal rate of HMP and LMP were above 85% and 90%, respectively. The flocculant dosage and pH value were the key influential factors. The pectin flocculation mechanism was mainly adsorption bridging and charge neutralization by hydrogen bonding, electrostatic adsorption, and hydrophobic interaction. The optimal flocculation conditions of HMP and LMP by HTCC were achieved.     

Removal of Tannic Acid by Chitosan and N-Hydroxypropyl Trimethyl Ammonium Chloride Chitosan: Flocculation Mechanism and Performance

The cationic organic flocculant chitosan and its derivative, N-hydroxypropyl trimethyl ammonium chloride chitosan (HTCC), were used in the flocculation of tannic acid, the impurity widespread in Chinese medicine water extractions. This study aimed at investigating the flocculation performance and mechanism of chitosan and HTCC on the tannic acid colloidal particles. The results showed that chitosan and HTCC effectively flocculated the tannic acid solution and the mechanism was mainly for the adsorption bridging and charge neutralization by hydrogen bonding, electrostatic interaction, and hydrophobic interaction. Meanwhile, the charge neutralization of HTCC was stronger than that of chitosan. The optimal flocculation conditions of chitosan and HTCC on tannic acid were achieved.     

Chitosan for coagulation/flocculation processes - An eco-friendly approach

Chitosan is a partially deacetylated polymer obtained from the alkaline deacetylation of chitin, a biopolymer extracted from shellfish sources. Chitosan exhibits a variety of physico-chemical and biological properties resulting in numerous applications in fields such as cosmetics, biomedical engineering, pharmaceuticals, ophthalmology, biotechnology, agriculture, textiles, oenology, food processing and nutrition. This amino-biopolymer has also received a great deal of attention in the last decades in water treatment processes for the removal of particulate and dissolved contaminants. In particular, the development of chitosan-based materials as useful coagulants and flocculants is an expanding field in the area of water and wastewater treatment. Their coagulation and flocculation properties can be used to remove particulate inorganic or organic suspensions, and also dissolved organic substances. This paper gives an overview of the main results obtained in the treatment of various suspensions and solutions. The effects of the characteristics of the chitosan used and the conditions in solution on the coagulation/flocculation performance are also discussed.     

原位沉析法制备壳聚糖棒材的研究

以壳聚糖凝胶膜为模板,将壳聚糖溶液与NaOH凝固液隔离,利用膜渗透原位沉析法制备了高性能的壳聚糖棒材(d=4.5mm),其弯曲强度、弯曲模量和剪切强度分别为92.4MPa,4.1GPa和36.5MPa.扫描电子显微镜(SEM)分析结果表明,原位沉析法制备的壳聚糖棒材具有同心筒状层叠结构,并对其成型机理进行了探讨.     

新型交联甲壳糖吸附树脂对胆红素的吸附性能研究

以天然甲壳素为原料合成了珠状高分子吸附剂，研究了吸附剂在磷酸二氢钠和磷酸氢二钠缓冲溶液中对非结合型胆红素的吸附性能，实验结果表明：交联甲壳糖吸附树脂对非结合型胆红素很好的吸附效果。