磁改性硅藻土对水中磷的吸附性能研究

利用硅藻土和FeSO_4·7H_2O为主要原料,采用共沉淀法制备应用于抑制水体富营养化的除磷吸附材料——磁改性硅藻土,通过BET比表面积、X射线衍射(XRD)、红外光谱(IR)和磁滞回归对其进行表征。结果表明:磁改性硅藻土表面除了含SiO_2,还增加了Fe_2O_3和Fe_2SiO_4,且具有优良的磁性;当吸附时间为120min、酸性、吸附剂投加量为10g/L时,磁改性硅藻土对磷的去除率最大,是硅藻土的4.6倍;Langmuir拟合方程能更好地拟合磁改性硅藻土对磷的等温吸附曲线,表明磁改性硅藻土对废水中磷的吸附是单分子层吸附过程;吸附饱和的磁改性硅藻土在外加磁场作用下可迅速实现固液分离。     

硅藻土预涂动态膜对海水中有机物的截留及膜污染特性

膜有机污染问题严重制约超滤在海水淡化预处理领域的推广应用。通过硅藻土预涂覆强化超滤膜对海水中有机物的截留,利用三维荧光光谱考察了硅藻土预涂动态膜对海水中典型有机污染物的净化作用,并对比分析了直接超滤和硅藻土预涂动态膜过滤海水过程中膜通量变化及污染特性。结果表明:硅藻土预涂动态膜对海水中DOC和UV254的去除率分别为65.25%和92.68%,较直接超滤分别提高了26.26%和31.10%。通过硅藻土预涂覆能够强化超滤膜对海水中蛋白质类有机物的截留,硅藻土预涂覆后超滤膜纯水通量略有降低。硅藻土在超滤膜表面形成的滤饼层结构避免了膜与有机污染物直接接触,在海水过滤过程中预涂动态膜的膜通量均高于直接超滤。硅藻土预涂动态膜更易清洗,膜通量更易恢复,能够有效减缓超滤膜的不可逆污染。     

液/固体系中硅藻土对Pb2+和Cd2+的吸附机制

为了提高硅藻土在重金属废水处理上的应用水平,采用静态吸附实验考察了液/固体系中硅藻土对Pb2＋、Cd2＋的吸附影响因素、吸附等温线和吸附动力学属性。结果表明,随着投加量的减少,离子初始浓度的提高,pH值的增大,吸附作用时间的延长,硅藻土对Pb2＋、Cd2＋吸附量不断上升;硅藻土对Pb2＋、Cd2＋的等温吸附都符合Langmuir模型,硅藻土对Pb2＋、Cd2＋最大吸附量分别为10.428 mg/g和7.916 mg/g,硅藻土对Pb2＋具有更好的吸附能力;Pb2＋具有较低的水合自由能,更容易脱去水膜与硅藻土孔道内的活性基团发生吸附作用;双常数扩散方程可以很好地描述硅藻土对Pb2＋、Cd2＋的吸附动力学属性,硅藻土对Cd2＋有较快的吸附速率。     

纤维素/硅藻土复合气凝胶的吸附性能

以纤维素与硅藻土为原料制备纤维素/硅藻土复合气凝胶。研究了影响纤维素/硅藻土复合气凝胶吸附的因素,以及复合气凝胶吸附亚甲基蓝的等温曲线、动力学与热力学特性。结果表明,纤维素/硅藻土复合气凝胶中硅藻土最佳含量为0.5 g,随着pH值的提高,纤维素/硅藻土复合气凝胶吸附量增大,碱性条件下最好。纤维素/硅藻土复合气凝胶的吸附量符合Langmuir及伪二级动力学模型,最大吸附量为68.399 5 mg/g。热力学研究表明,纤维素/硅藻土复合气凝胶吸附亚甲基蓝是自发、放热的物理吸附过程。     

钡盐沉积改性硅藻土的制备及其吸附Pb2+的研究

通过钡盐沉积改性制备改性硅藻土,并将其应用于吸附模拟废水中pb2+,分析了钡盐浓度、pH、改性硅藻土投加量、水样中pb2+初始浓度以及振荡时间对改性硅藻土吸附pb2+的影响,并对硅藻土的沉降性能和改性机制进行了初步的探讨.结果表明,选择0.20 mol/L钡盐改性硅藻土,在pH为7.0、投加量为2 g、水样中pb2+初...     

硅藻土处理含重金属废水初探

一、概述硅藻土呈微孔隙结构,具有较大的比表面积和很强的吸水性,吸附及过滤性能良好,国外普遍地将硅藻土用作过滤材料、填充剂和热绝缘材料,而用硅藻土处理含重金属废水的报道,至今还不多见。本试验的目的是对硅藻土吸附废水中重金属离子的可能性及吸附效果进     

改性硅藻土用于巢湖水脱磷研究

采用改性硅藻土强化混凝处理巢湖水,以达到除磷的目的.研究了改性硅藻土除磷最适操作条件,并将改性硅藻土同几种常规混凝剂的处理效果和其经济性进行了对比.结果表明:改性硅藻土和水的混合搅拌速度梯度为260 s-1左右,絮凝反应速度梯度为20 s-1左右,絮凝时间15 min,沉淀时间1 h,改性硅藻土投加量50～100 mg...     

联合硅藻土与PAC强化混凝处理含藻微污染原水

研究了联合硅藻土与聚合氯化铝（PAC）强化混凝对原水中藻类、溶解性有机物以及重金属离子的去除效果。结果表明,硅藻土的投加可以有效地改善絮体的沉降性能,增强藻类的混凝沉淀去除效率,PAC投加量为30 mg/L时,投加0.1 g/L硅藻土,叶绿素a去除率由82.5%提高到95.9%。该强化混凝过程使原水中溶解性有机物特别是大分子有机物和重金属离子的去除率有所上升。PAC投加量为30 mg/L,硅藻土投加量为1.5 g/L时,重金属Cu、Pb和Cd的去除率分别达到57.5%、83.7%和22.2%。     

不同黏土对盐酸环丙沙星和诺氟沙星的吸附特性

研究了不同振荡时间、溶液pH和金属离子浓度条件下,蒙脱土和硅藻土对水溶液中盐酸环丙沙星和诺氟沙星的吸附特性及其吸附动力学。结果表明,蒙脱土和硅藻土对抗生素的吸附均在4 h达到吸附平衡;强酸、强碱均有利于蒙脱土对盐酸环丙沙星的吸附,中性和碱性不利于蒙脱土对诺氟沙星的吸附;pH的升高不利于硅藻土对盐酸环丙沙星的吸附,强酸、强碱条件有利于硅藻土对诺氟沙星的吸附。pH≤6时,Na+和K+对吸附效果影响不大;pH=10时,Na+和K+显著降低2种吸附剂对抗生素的去除率。Ni2+有利于蒙脱土吸附盐酸环丙沙星,但不利于吸附诺氟沙星,不利于硅藻土在中性条件对抗生素的吸附。由吸附动力学可知,2种吸附剂对抗生素的吸附过程均符合准二级动力学模型。     

7种改性硅藻土对Cd2+、Pb2+、Cu2+的吸附性能对比

首次系统地研究了硅藻土经热活化、锰氧化物、Mg(OH)2改性、聚丙烯酰胺、氨丙基三乙氧基硅烷、微乳液和Cu2等7种方法改性后,在不同pH下对Cd2+、pb2+、Cu2+的吸附效果及其主要机理.在实验条件下,重金属吸附效果最佳的是锰氧化物和Mg(OH)2改性硅藻土.对于pb2+、Cu2+和Cd2+的吸附,前者的最大吸附量分别为98、84和78 mg/g,后者是79、76和91 mg/g.SEM、BET、XRD、FTIR结果显示,这2种改性硅藻土的比表面积大大增加,且拥有更多能提高其吸附性能的Si-O-H基团.Mg(OH)2改性硅藻土对Cd2+吸附等温线研究表明,其符合Langmuir等温吸附模型.提供的改性方法和实验结果,为硅藻土处理水体重金属污染提供了新的技术手段和理论依据.     

改性铁覆膜砂的制备及吸附性能研究

制备了4种改性铁覆膜砂,并对其吸附性能进行了全面的实验,分析比较了4种改性剂的作用和效果.实验中发现,添加改性剂对铁覆膜砂吸附性能的促进作用各不相同,改性剂和铁氧化物的性质共同决定了改性铁覆膜砂的性质.吸附等温线和连续动态过滤实验结果表明,活性炭和硅藻土对提高铁覆膜砂吸附性能有促进作用,但膨润土和粉煤灰的作用不明显,甚至还可能降低吸附容量.活性炭改性铁覆膜砂的吸附等温式符合Langmuir模型,硅藻土改性铁覆膜砂、膨润土改性铁覆膜砂和粉煤灰改性铁覆膜砂对Langmuir模型和Freundlich模型都有较好的相关性.改性铁覆膜砂对天然有机物(NOM)的吸附属于单分子层吸附,吸附的主要机理为静电相互作用、配位交换-表面络合作用和疏水/憎水作用等.溶液pH值对改性铁覆膜砂吸附NOM有很大的影响,表现为低"pH值去除效率高,高pH值去除效率低"的特点,其变化规律取决于添加物质的性质.磷酸盐会和腐殖酸在改性铁覆膜砂表面产生竞争吸附,磷酸盐对粉煤灰改性铁覆膜砂的吸附能力影响最大.     

Colloidal diatomite, radionickel, and humic substance interaction: a combined batch, XPS, and EXAFS investigation

This work determined the influence of humic acid (HA) and fulvic acid (FA) on the interaction mechanism and microstructure of Ni(II) onto diatomite by using batch experiments, X-ray photoelectron spectroscopy (XPS), and extended X-ray absorption fine structure (EXAFS) methods. Macroscopic and spectroscopic experiments have been combined to see the evolution of the interaction mechanism and microstructure of Ni(II) in the presence of HA/FA as compared with that in the absence of HA/FA. The results indicated that the interaction of Ni(II) with diatomite presents the expected solution pH edge at 7.0, which is modified by addition of HA/FA. In the presence of HA/FA, the interaction of Ni(II) with diatomite increased below solution pH 7.0, while Ni(II) interaction decreased above solution pH 7.0. XPS analysis suggested that the enrichment of Ni(II) onto diatomite may be due to the formation of (≡SO)₂Ni. EXAFS results showed that binary surface complexes and ternary surface complexes of Ni(II) can be simultaneously formed in the presence of HA/FA, whereas only binary surface complexes of Ni(II) are formed in the absence of HA/FA, which contribute to the enhanced Ni(II) uptake at low pH values. The results observed in this work are important for the evaluation of Ni(II) and related radionuclide physicochemical behavior in the natural soil and water environment.     

The effects of relative humidity on the insecticidal properties of a diatomite‐based dust

Abstract

The feasibility of using diatomaceous earth (diatomite) as an insecticidal dust was investigated under conditions of high (80%) and low (10%) relative humidity, using the adult red flour beetle, Tribolium castaneum. Tested were diatomite and two lots of a commercial formulation of the same diatomite, containing 0.2% pyrethrins and 1.0% piperonyl butoxide. For comparison, talcum and a talcum‐based commercial formulation, containing the same concentrations of pyrethrins and piperonyl butoxide, were included in the tests. The insects were exposed to 0.08 mg/cm² of each material tested, equivalent to the label recommendation of 7 lb/acre for the diatomite‐based commercial insecticide. At 10% RH, higher doses of diatomite were also tested. Mortalities were determined at intervals for up to 84 hours.

Diatomite caused no mortalities at the experimental concentration, regardless of RH. At about four times that rate and 10% RH, it caused less than 5% mortality.

At 80% RH, the diatomite‐based product (P. C. P. Act #14074) was significantly more effective than the talcum‐based one (#13074). At 10% RH, however, the latter acted more quickly than the diatomite‐based formulations, but all produced nearly 100% mortality after 68 hours.

The results are discussed in terms of the physical characteristics of diatomite and in terms of the modes of insecticidal actions of diatomite and pyrethrins. It is concluded that diatomite alone, despite its attractiveness to environmental interests, is not likely to become an effective agent for controlling red flour beetles and other pest insects with similar water‐proofing mechanisms.     

土壤原位覆盖对底泥的修复作用研究

在高度厌氧底泥和富营养化水体构成的模拟生态系统中，采用土壤和硅藻土进行原位覆盖，研究了覆盖技术对水．沉积物界面微环境的改善作用和不同覆盖材料对苦草生长的影响。这2种底质覆盖后，表层底泥氧化还原电位（Eh）分别提高了48．37％和46．77％，底层水体的溶解氧消耗降低，水体中的总氮（TN）和总磷（TP）含量降低；与对照箱体的苦草死亡相比，经过土壤和硅藻土覆盖的箱体中苦草正常萌发、定植和生长；硅藻土箱体苦草的生物量、叶绿素和根茎比均高于土壤覆盖箱体。因此，原位覆盖能有效改善底层水体和表层底泥的氧化还原环境，隔绝污染底泥和延缓营养盐释放，为沉水植物种子萌发和幼苗生长提供有利的生境条件。     

改性硅藻土复合混凝剂处理深度采油废水

某油田深度采油废水中含有大量残油,粘度大、乳化程度高、油水分离困难,本实验采用改性硅藻土吸附和无机混凝剂混凝相结合以处理深度采油废水.结果表明,对于含油浓度为250～ 350 mg/L的石油废水,用强化吸附方法,吸附剂投加量为1.5 g/L,优化实验条件下除油率可达到75％；采用强化混凝的方法,PAC在投药量为200 mg/L的情况下除油率可达到87％；采用强化吸附-混凝联合处理的优化方法,投加0.7 g/L吸附剂+PAC 200 mg/L,除油率＞95％,明显高于吸附和混凝单独处理效果,大大改善了出水水质.     

硅藻土强化混凝去除微污染原水中的有机物

研究了联用硅藻土与聚合氯化铝（PAC）强化混凝对有机微污染原水中不同性质溶解性有机物的去除效果。采用超滤膜和XAD系列树脂对微污染原水中溶解性有机物进行分级表征,物理分级表明分子量〈4 kD的溶解性有机物占50%以上,化学分级表明原水中以憎水酸（HoA）和亲水物质（HiM）为主。硅藻土助凝去除溶解性有机物,实验结果表明,当PAC投加量30 mg/L,硅藻土投加量0.5 g/L时,溶解性有机碳去除率由22.5%提高到26.3%。     

Stabilization of the initial electrochemical potential for a metal-based potentiometric titration study of a biosorption process

An interactive metal-based potentiometric titration method has been developed using an ion selective electrode for studying the sorption of metal cations. The accuracy of this technique was verified by analyzing the metal sorption mechanism for the biomass of Rhizopus arrhizus fungus and diatomite, two dissimilar materials (organic and mineral, strong sorbent and weak sorbent) of a different order of cation exchange capacity. The problem of the initial electrochemical potential was addressed identifying the usefulness of a Na-sulfonic resin as a strong chelating agent applied before the beginning of sorption titration experiments so that the titration curves and the sorption uptake could be quantitatively compared. The resin stabilized the initial electrochemical potential to -405+/-5 mV corresponding to 2 micro gl(-1) of lead concentration in solution. The amounts of lead sorbed by R. arrhizus biomass and diatomite were 0.9 mmol g(-1) (C(e)=5.16 x 10(-2)mM) and 0.052 mmol g(-1) (C(e)=5.97 x 10(-2) mM), respectively. Lead sorption by the fungal biomass was pinpointed to at least two types of chemical active sites. The first type was distinguished by high reactivity and a low number of sites whereas the other was characterized by their higher number and lower reactivity.