絮凝剂产生菌(DSF-1)絮凝活性研究(Ⅰ)

采用稀释划线法从土壤中分离得到一株絮凝剂产生菌DSF-1。通过高岭土悬浮液对该絮凝剂的絮凝活性做了初步研究,结果表明DSF-1产絮凝剂具有产生速度快、絮凝活性高、耐热性能良好的优点。     

微生物絮凝剂产生菌絮凝活性研究(Ⅱ)

从福州郊区旱田地表土壤中分离得到一株絮凝剂产生菌,根据菌落形态特征,初步鉴定为链球菌.研究表明,培养基组成如下:碳源为蔗糖,氮源为牛肉膏,培养基初始pH值为5～8.5之间能取得较好的效果,添加一定浓度的Na 、Mg2 、Ca2 对培养液的絮凝活性有促进作用,而培养液中少量的Cu2 、Fe3 、Zn2 可抑制絮凝活性,该絮凝剂对高岭土悬浮液有较好的絮凝效果.结合实验现象和双电层理论初步推测了该絮凝剂的絮凝过程模型,对进一步研究微生物絮凝剂的絮凝机理有一定的参考作用.     

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.     

高盐对微生物絮凝剂产生菌H6的影响研究

探索利用高盐有机废水生产微生物絮凝剂的可行性,实验表明,菌H6在酸性条件下可利用高盐合成废水生长微生物絮凝剂,在36 h时发酵液对高岭土的絮凝活性达到99.2%,但随发酵时间的延长,发酵液的絮凝能力下降.对照6%硫酸钠与6%氯化钠培养基条件下发酵情况,发现阴离子对菌产微生物絮凝剂的周期有影响.     

微生物絮凝剂产生菌絮凝活性研究(II)

从福州郊区旱田地表土壤中分离得到一株絮凝剂产生菌,根据菌落形态特征,初步鉴定为链球菌。研究表明,培养基组成如下:碳源为蔗糖,氮源为牛肉膏,培养基初始pH值为5~8.5之间能取得较好的效果,添加一定浓度的Na+、Mg2+、Ca2+对培养液的絮凝活性有促进作用,而培养液中少量的Cu2+、Fe3+、Zn2+可抑制絮凝活性,该絮凝剂对高岭土悬浮液有较好的絮凝效果。结合实验现象和双电层理论初步推测了该絮凝剂的絮凝过程模型,对进一步研究微生物絮凝剂的絮凝机理有一定的参考作用。     

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。     

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.     

表面活性剂对亲水性颗粒悬浮液流变性的影响

研究表面活性剂对悬浮液流变性的影响,对于表面活性剂在悬浮体系中的应用有着重要意义.实验研究了3种不同类型的表面活性剂对亲水性颗粒悬浮液流变性的影响,并利用激光共聚焦显微镜以及Zeta电位仪等仪器对表面活性剂影响悬浮液流变性的原因进行探究与阐述.结果 表明,只有阴离子表面活性剂十二烷基苯磺酸钠对亲水性颗粒悬浮液的流变性有...     

聚丙烯酰胺絮凝效果的母液浓度依赖性及其影响

考察了相同剂量下不同浓度阴离子型聚丙烯酰胺絮凝剂(PAM)母液对三氧化二铁悬浮液的絮凝效果.通过电导率和流变行为测试,阐明了随母液浓度增大絮凝效果先变好后变差的原因.研究结果表明,母液浓度为0.3 g/L时PAM絮凝效果最佳.根据聚电解质标度理论及流变测试结果,认为此最佳母液浓度(cop)接近临界缠结浓度.母液电导率及加入絮凝剂后的搅拌过程中水体电导率变化表明,絮凝剂浓度高于最佳母液浓度时出现的电荷屏蔽现象使得有效电荷减少,导致高母液浓度下絮凝效果变差.向低浓度母液中添加适量β-环糊精后,环糊精分子通过氢键作用搭桥使PAM分子间距变小,发生协同絮凝形成足够大的絮体,从而使絮凝效果得到改善.这一结果表明,低于最佳母液浓度时由于PAM分子相对孤立形成的絮体不足以沉降,是导致絮凝效果较差的原因.     

层状复合金属氢氧化物-聚丙烯酸钠水分散体系的双絮凝现象及机理探讨

研究了聚丙烯酸钠(PAAS)对镁铝型层状复合金属氢氧化物(MgAl-LDH)的胶体水分散体系稳定性的影响. 利用总有机碳(TOC)分析技术测定了PAAS在LDH颗粒上的吸附量, 并利用ζ电位表征了LDH颗粒的电性质. 实验结果表明, 在质量分数为1%的LDH水分散体系中加入0.006~2.400 mmol/L PAAS, 随着PAAS浓度的增加, LDH-PAAS混合体系出现了絮凝-分散-再絮凝变化. 同时, 随着PAAS浓度的增加, PAAS在LDH颗粒上的吸附导致颗粒ζ电位由正减至0, 并进一步负向增加, 颗粒间静电斥力先减小后增加, 因此体系先絮凝再分散. 随着LDH颗粒负电性的进一步增强, 未吸附的PAAS引发颗粒间产生的空缺引力成为体系再次絮凝的主要原因. 对吸附PAAS的LDH颗粒的红外光谱分析表明, PAAS主要通过-COO-与LDH的相互作用而吸附在颗粒上.     

Adhesion of spherical polyelectrolyte brushes on mica: an in situ AFM investigation

We demonstrate that the adsorption of cationic spherical polyelectrolyte brushes (SPB) on negatively charged mica substrates can be controlled in situ by the ionic strength of the suspension. The SPB used in our experiments consist of colloidal core particles made of polystyrene. Long cationic polyelectrolyte chains are grafted onto these cores that have diameters in the range of 100 nm. These particles are suspended in aqueous solution with a fixed ionic strength. Atomic force microscopy (AFM) in suspension as well as in air was used for surface characterization. In pure water the polymer particles exhibit a strong adhesion to the mica surface. AFM investigations of the dry samples show that the particles occupy the identical positions as they did in liquid. They were not removed by the capillary forces within the receding water front during the drying process. The strong interaction between the particles and the mica surface is corroborated by testing the adhesion of individual particles on the dried surface by means of the AFM tip: after a stepwise increase of the force applied to the surface by the AFM tip, the polymer particles still were not removed from the surface, but they were cut through and remained on the substrate. Moreover, in situ AFM measurements showed that particles which adsorb under liquid in a stable manner are easily desorbed from the surface after electrolyte is added to the suspension. This finding is explained by a decreasing attractive particle-substrate interaction, and the removal of the particles from the surface is due to the significant reduction of the activation barrier of the particle desorption. All findings can be explained in terms of the counterion release force.     

Composites of kaolin and polydimethylsiloxane

Kaolin particles were surface-treated with isobutyltrimethoxysilane (IBTMS), hydrogenated tallow (HT), and a polyisobutyl chain-based stabilizer (SAP) to make composites with polydimethylsiloxane (PDMS). IBTMS did not cover the strong acid sites on the kaolin surface and as a result a cross-linking reaction occurred for silanol-terminated PDMS. The polyisobutyl chain of SAP was found to be incompatible with PDMS and this caused aggregation of the kaolin particles. HT was the most effective at dispersing the particles into silanol-terminated PDMS. The aggregation state of the composites was characterized using rheology and microscopy. Both showed the HT-treated particles were well-dispersed in low molecular weight silanol-terminated PDMS, and they were weakly flocculated in higher molecular weight silanol-terminated PDMS. However, the same particles aggregated when dispersed in methyl-terminated PDMS. It appears the silanol-terminated PDMS acted as costabilizer through interaction with the kaolin surface. Transverse relaxation NMR was used to probe mobility of the PDMS chains in the composites. This showed little dependence on surface treatment, aggregation state, or polymer end groups. For all samples, chain mobility decreased with increasing kaolin concentration.     

Superabsorbent hydrogel composites

A new cost‐effective approach to enhance gel strength of superabsorbent hydrogels was invented. Superabsorbent hydrogel composites (SHCs) were prepared through an optimized rapid solution polymerization of concentrated partially neutralized acrylic acid in the presence of a crosslinking agent under normal atmospheric conditions. Kaolin was used as an inorganic component in the polymerization process to strengthen the hydrogel products. FT‐IR spectroscopy was used to confirm grafting of acrylic chains on to the surface of kaolin particles. Morphology of the products was studied by scanning electron microscopy (SEM). Compared with the kaolin‐free hydrogel (control), kaolin caused a reduced equilibrium swelling and swelling rate as low as 17–31% and 19–29%, respectively. Kaolin, however, resulted in enhanced gel strength as high as 21–35% compared to the control. Differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) were used to study thermal properties of the composites. The SHCs exhibited higher thermal stability than the control. Meanwhile, changes in certain thermal transitions reconfirmed the chemical interaction of the acrylic chain with kaolin. These thermostabilized strengthened superabsorbent hydrogels may be considered as good candidates for agricultural application to retain more water under soil pressure. Copyright © 2003 John Wiley & Sons, Ltd.     

垃圾焚烧飞灰颗粒的微观形态特征及能谱研究

利用SEM/EDX，观察了垃圾焚烧飞灰颗粒的微观形态特征，探讨了其主要组成元素及其质量分数。实验结果表明，飞灰颗粒形态多样化，其中以不规则形状聚合体居多，球形体、絮状集合体相对较少，少数颗粒为棒状集合体。球形飞灰颗粒很少有重金属分布，不规则形状聚合体或絮状集合体的表面易分布重金属。从飞灰颗粒表面、内部组成元素的质量分数来看，Si、Ca、Al为主要元素。飞灰颗粒表面、内部有重金属Pb、Cu等分布，局部测定点其质量分数可高达16.2%和14.5%。     

Comparison of surface properties between kaolin and metakaolin in concentrated lime solutions

The surface adsorption of calcium hydroxide onto kaolin and metakaolin was investigated by monitoring with atomic emission spectroscopy and pH measurements the amounts of ions left in solution after exposing clays to calcium hydroxide solutions of various concentrations. Both clays adsorb calcium and hydroxyl ions but differently. Kaolin adsorbs calcium hydroxide not only at the edges of the clay particles but also onto the basal faces. The adsorbed hydrated calcium ions form a layer on the clay particle surfaces, preventing further dissolution of the clay mineral platelet. Metakaolin shows high pozzolanic activity, which provides the quick formation of hydrated phases at the interfaces between metakaolin and lime solutions. The nature of the hydration products has been investigated using X-ray diffraction (XRD) and differential thermal analysis (DTA). The most important hydrated phases like CSH (hydrated calcium silicate) and C₂ASH₈ (gehlenite) have been identified.     

Preparation and Characterization of Nano-Structured SiO2 Thin Films on Carbon Steel

Nano-structured SiO2 thin films were prepared on the surface of carbon steel for the first time by LPD. The compositions of the films were analyzed by XPS, and the surface morphology of the thin films were observed by AFM. The thin films were constituted by compact particles of SiO2, and there was no Fe in the films. In the process of film forming, the SiO2 colloid particles were deposited or absorbed directly onto the surface of carbon steel substrates that were activated by acid solution containing inhibitor, and corrosion of the substrates was avoided. The nano-structured SiO2 thin films that were prepared had excellent protective efficiency to the carbon.     

In situ AFM study of sorbed humic acid colloids at different pH

Humic acid colloids adsorbed on the basal plane of cleaved muscovite are investigated under in situ conditions by non-contact mode atomic force microscopy (AFM) in liquid (also called fluid tapping-mode AFM). Structures are found to be of nanometer scale, consisting of flat particles (8–13 nm in diameter), aggregates of particles (20–100 nm), chain-like assemblies, networks and torus-like structures. In contrast to former investigations colloids are investigated in aquatic solution and structures are not influenced by sample preparation. Nanostructure, surface coverage and particle sizes are found to depend on solution pH. Humic colloids can be distinguished from surface roughness and background noise by image processing. Furthermore, an approach to quantify the surface coverage is discussed. Therefore, non-contact mode AFM in liquid is shown to be a powerful method to study the interaction of colloids at solid–liquid interfaces.     

Novel filled polymer composites prepared from in situ polymerization via a colloidal approach: II. Blends of kaolin/Nylon-6 in situ composites with conventional Nylon-6 and -66

A novel in situ composite comprised of kaolin clay fillers and polyamide 6 (Nylon-6) was synthesized via a colloidal approach by suspending kaolin particles in aqueous caprolactam and then polymerizing the caprolactam under elevated temperature and pressure. This in situ polymerization technique enables the deposition of nylon molecules directly onto the filler surface. It offers a much larger contact surface area for the nylon molecules to interact with the filler particles and enhances filler/matrix interaction through polymer miscibility. The kaolin particles were shown to be uniformly dispersed in Nylon-6 matrix without appreciable agglomeration. In the highly clay-loaded composites such as the 50/50 kaolin/Nylon-6 in situ composite, the deposited nylon molecules probably form a coated layer on the filler particles. This kind of nylon coated fillers may be applied as a reinforcing entity to commercial Nylon-6 or −;66 by improving particle dispersion and melt processability. The 50/50 kaolin/Nylon-6 in situ composites have been used as a masterbatch for blending with commercial Nylon-6 and Nylon-66 to take advantage of their good properties and to reduce cost. Rheology and mechanical properties of the masterbatch/nylon composites have been investigated in comparison with those of the conventional melt-mixed composites. The improvement of rheological and mechanical properties of the in situ composites has been discussed in relation to the composite structure. © 1996 John Wiley & Sons, Inc.     

界面改性剂对刚性粒子增韧尼龙6熔体流变行为的影响

研究了界面改性剂对高岭土增韧尼龙６熔体流变行为的影响,并与硅烷偶联剂ＫＨ５５０进行了比较．结果表明,ＫＨ５５０的加入明显降低了高岭土填充尼龙６熔体的粘度和弹性,而界面改性剂显著地增强了它的粘度和弹性．这一差别应归因于同ＫＨ５５０相比,界面改性剂更有效地增强了高岭土与尼龙６基体之间的界面结合和其自身的回弹性能．同时,界面改性剂的用量对高岭土填充尼龙６流变行为具有很大影响．当界面改性剂的用量为高岭土和尼龙６总量的２％时,界面改性剂在高岭土表面上趋于“饱和”,再增加界面改性剂的用量,对流变行为的影响不大．     

Effect of SiO2 coating layer morphology on TiH2 gas release characteristic

In this study, a uniform and compact SiO2 film-coating layer was prepared on the surface of TiH2 particles by sol-gel method using inexpensive raw materials. The preparation process of SiO2-coated TiH2 particles and the effect of the coating layer morphology on the gas release characteristic were investigated in detail. When the pH value of TiH2 suspending solution is about 4.0 and the concentration of silicic acid is more than 0.5 mol/L, the coating layer shows a SiO2 particle-coating morphology. While a homogeneous and dense film-coating layer can be obtained when the solution pH value and concentration of silicic acid are about 4.0 and 0.5 mol/L. The results of gas release at 700 degrees C show that TiH2 particles coated with silicon dioxide layers can efficiently delay the starting time of gas release of TiH2 powders to 60-100 s. Comparing the particle-coating layer, the SiO2 film-coating layer has a better delaying effect on gas release of TiH2 particles.