从防垢剂对碳酸钙晶形分布影响的角度研究防垢机理

为研究防垢剂的作用机理, 收集了不同防垢剂加入前后出现的碳酸钙垢. SEM分析表 明, 加入防垢剂前, 碳酸钙垢的SEM表现为方解石的六方柱和菱面体; 加入防垢剂后, 碳酸钙垢的形态发生变化, 且防垢剂的效果越好, 垢的形态改变程度越大. 进一步通过FT-IR, XRD对碳酸钙垢进行了定性、定量分析, 发现加入防垢剂后, 垢中除方解石外, 出现了六方方解石和文石, 且防垢率越大, 垢中六方方解石的含量越高. 上述结果说明, 加入防垢剂后垢形态改变的本质原因是垢中碳酸钙晶型分布发生了变化. 结垢过程主要包括不稳定相的生成和消失、介稳相的生成和消失、稳定相的生长三个阶段. 不出现防垢剂时, 介稳相可以转变为稳定相, 碳酸钙垢的主要成分为方解石; 加入防垢剂后, 防垢剂阻止了介稳相的生成和转化, 导致碳酸钙垢中出现了六方方解石和文石. 防垢率越大, 碳酸钙垢中六方方解石含量越高, 说明防垢剂主要通过将结垢过程控制在第二阶段或第一阶段而起到防垢作用.     

三元复合驱硅垢防垢剂SY-KD的合成及应用

通过分析三元复合驱油体系下硅垢的形成机理,设计合成了新型硅防垢剂SY-KD.SY-KD是由丙烯酸(AA)和对甲基烯丙基氧基苯磺酸(MBS)共聚形成的高分子(CAABS)与2-膦酸丁烷-1,2,4-三羧酸(PBTC)复配的混合物.SY-KD中羧基官能团通过氢键相互作用与原硅酸分子或其二聚体发生键合,由于SY-KD分子链的空间位阻效应,阻止了原硅酸分子或二聚体进一步聚合形成二氧化硅.室内研究结果表明,SY-KD各组分对于硅垢的阻垢能力主要是通过阻聚、吸附分散以及对不溶性SiO2的溶蚀作用来实现的,是一种很好的三元复合驱阻垢剂.SY-KD防垢剂使结垢油井平均检泵周期由50 d左右增加到300 d.     

化学抑尘剂的研究进展

总结了近八年来国内外化学抑尘领域的研究进展,阐述了近年来化学抑尘剂的主要研究方向及类型,分析了各种新型抑尘剂的特点、抑尘机理、效果及存在的主要问题,以期为今后更好开发和使用抑尘剂从而解决开放性尘源扬尘污染问题创造条件。     

阻垢剂阻BaSO4垢性能的电导滴定评价法

采用一种基于电导滴定原理的评价方法,通过测定电导滴定过程中不同阻垢剂在相同浓度下所能维持的BaSO4的最大相对过饱和度来评价阻垢性能。实验对阻垢剂聚环氧琥珀酸(PESA)、聚天冬氨酸(PASP)、二亚乙基三胺五亚甲基膦(DEPTMP)、六偏磷酯钠(SHMP)阻BaSO4垢的性能分别采用了电导滴定法及静态阻垢法进行测定并比较。电导滴定法对阻垢剂阻BaSO4垢性能的测试结果表明,阻垢剂PESA、PASP、DTPMP和SHMP对BaSO4垢的阻垢能力大小为:PESA>PASP>DEPTMP>SHMP,这与静态阻垢法的实验结果一致,表明电导滴定法与静态阻垢法对阻垢剂阻BaSO4垢的评价结果具有一致性,电导滴定法评价阻垢剂对BaSO4垢的阻垢性能具有快速、简单、易行的优点。而且实验表明,电导滴定法的RSD为0.020,而静态阻垢法为0.069,说明电导滴定法的重现性优于静态阻垢法。该法还可用于评价阻垢剂对BaSO4垢的协同阻垢效应。     

酰胺类萃取剂萃取分离铕的研究进展

酰胺类萃取剂容易合成,热稳定性好,能完全燃烧,对环境友好等一系列优点,已广泛的用来从核燃料的后循环中萃取分离镧系元素和锕系元素。论述了使用不同类型的酰胺类萃取剂萃取及其分离铕的研究,重点讨论了丙二酰胺类和丁二酰胺萃取剂、酰胺莢醚类萃取剂、吡啶二甲酰胺类萃取剂、乙酰胺基胺类萃取剂萃取分离铕的最新研究成果,同时对这几类催化剂萃取铕的萃取效果进行了比较和讨论。     

裂解气相色谱-质谱法分析裂解气压缩机垢样的组成

采用裂解气相色谱-质谱联用技术对大庆石化公司裂解气压缩机EC301不同压缩段的垢样进行分析。实验使用了RJ-1型管炉式裂解器,在500℃下对垢样进行裂解,色谱柱为60 m DB-1型毛细管色谱柱,质谱采用电子轰击电离源,电离能70 eV。研究表明,垢样的形成与环戊二烯密切相关。裂解气相色谱-质谱法可以作为分析该垢样成因的有效手段。     

光产碱反应及其应用

光产酸剂作为光引发剂具有良好的引发效果，广泛应用于高分子领域，但使用光产酸剂会引起基材的腐蚀，而光产碱剂则无此弊病，故引起许多学者的兴趣。主要综述了光产碱剂和光产碱的类型、光化学反应机理及其应用。     

离子色谱法测定电厂炉管垢样中的Cl-、SO42-

介绍离子色谱法测定电厂炉管垢样中腐蚀介质Cl^-和SO4^2-的方法，并对使用在线淋洗液发生器与以前配制淋洗液的方法进行了对比，提出了其在应用中的特性。垢样中Cl^-和SO4^2-的相对标准偏差分别为2.7%和2.3%，回收率分别为89.0%-97.8%和91.0%-98.9%。     

高压密封消解技术在电厂盐垢分析中的应用

利用高压密封消解技术来消解蒸汽汽轮机叶片上的盐垢,确定了理想的消解体系及消解条件,能比较方便,快捷地完全消解盐垢,并对消解后的元素分析测定作了相应的研究,结果令人满意,本法的SiO2和Fe^3 的标准加入回收率分别为95％－101％和97％－108％。     

内分泌干扰剂的研究进展

内分泌干扰剂(EDC) 正在成为生态环境研究的前沿课题, 并受到各国政府的密切关注。本文综述了内分泌干扰剂的危害、作用机理、化合物类型及研究进展, 特别强调了化合物低剂量长期暴露潜在危害的新概念, 详述了传统的环境毒理学和环境分析化学所遇到的挑战及生物分析、化学仪器分析和生物传感器技术在内分泌干扰剂筛选过程中的重要战略地位。     

Investigation of scale inhibition mechanisms based on the effect of scale inhibitor on calcium carbonate crystal forms

To probe the scale inhibition mechanisms,calcium carbonate scale occurring before and after the ad- dition of scale inhibitors was collected.The results from scale SEM confirm that,without scale inhibitor, calcium carbonate scale shows rhombohedron and hexagon,which are the characteristic feathers of calcite.After addition of inhibitors,morphology of scale is changed,and the more efficient the scale inhibitor is,the more greatly the morphology is modified.To elucidate the scale constitute,they were further analyzed by FT-IR,XRD.Besides calcite,vaterite and aragonite occur in calcium carbonate scale after addition of inhibitors,and the higher scale inhibition efficiency is,the more vaterite presents in scale.It can be concluded that the alteration of morphology is ascribed to the change of crystal form. There are three stages in the crystallizing process including occurrence and disappearing of unstable phase,occurrence and disappearing of metastable phase,development of stable phase.Without scale inhibitors,metastable phases usually transform into stable phase,thus the main constitute of formed scale is calcite.When scale inhibitors are added,both formation and transformation of metastable phases are inhibited,which results in the occurrence of aragonite and vaterite.From the fact that more vaterite presents in scale with a more efficient scale inhibitor added,we can see that the function of scale inhibitor is realized mainly by controlling the crystallizing process at the second stage.     

Estimation of the Combined Effect of Temperature and Carbon Dioxide Pressure on Dissolved Calcium Carbonate Concentration in Oilfield Brines

Calcium carbonate, or calcite, scale is frequently encountered in oilfield operations. In a reservoir, when brine is produced, it is disturbed because the brine is moved to lower temperature and pressure areas. The dissolved concentration of calcium carbonate is greatly influenced by temperature and the partial pressure of carbon dioxide gas over the water. The net result of a drop in temperature and pressure may therefore be an increase or a decrease in the calcium carbonate saturation ratio as determined by the temperature change relative to the pressure change. In this article, a simple Arrhenius-type function is developed to estimate the combined effect of temperature and carbon dioxide pressure on calcium carbonate dissolved concentration in oilfield brines. Estimations are found to be in excellent agreement with reported data in the literature with average absolute deviation being less than 2%. The tool developed in this study can be of immense practical value for engineers to have a quick check of combined effect of temperature and carbon dioxide pressure on calcium carbonate dissolved concentration at various conditions without opting for any field or experimental trials. In particular, engineers would find the approach to be user friendly with transparent calculations involving no complex expressions.     

Scale Inhibition of Green Inhibitor Polyepoxysuccinic Sodium

Polyepoxysuccinic acid (PESA) is the green water treatment agents recognized all over the world[1-3]. It is found that when PESA is used alone, it had good scale inhibition. PESA should be included in the category of green scale inhibitor.PESA is synthesized with maleicanhydride in the presence of catalysts. The effect on scale-in-hibiting property of the product from amount and feed times of catalyst, the reaction temperature, the reaction time were investigated. The optimum reaction conditions are as follows:n(maleic anhydride):n(Ca(OH)2):n(NaOH)=1:0.05-0.2:0.5, reaction temperature 95C, reaction time 4h.In all the references about PESA, PESA is researched as a kind of highly effective scale inhibitor or chelate. In this paper, the performance of scale inhibition of PESA is evaluated by scale static inhibitor.The results are shown in Figture1.It is evident from our experimental data (Figture1) that when inhibition for CaCO3.With the increase of PESA dosage, scale inhibition increases. When dosage is more than 6mg/L, inhibition efficiency is over 50%. The formulas give scale inhibition efficiency more than 95% at 12mg/L of total dosage.     

Calcium Carbonate Scale Formation in Pipes: Effect of Flow Rates,Temperature, and Malic Acid as Additives on the Mass and Morphology of the Scale

It is well recognized that calcium carbonates (CaCO₃) is one of the main components of scale that is commonly encountered in chemical and related industries. The calcium carbonate scale often grows extensively on equipment and parts, causing major operational difficulties. This paper presents experiments on calcium carbonate scale formation and control in a piping system where the scale-forming solution flowed in a laminar manner: 30, 40, and 50 mL/min, respectively. Other parameters evaluated were: solution temperature (25, 30 and 40 °C), and concentrations of malic acid (C₄H₆O₅) added as impurities (3.00 and 5.00 ppm). The scale-forming solution was made by mixing equimolar solutions of CaCl2 and Na2CO3, respectively. The scale formation process was monitored by measuring the conductivity of the solution coming out of the piping system. It was found that in all experiments, conductivity decreased abruptly after a certain induction period, during which time the conductivity remained steady. The induction period varied from 17 min to 34 min, which means that the scale starts forming 17 min to 34 min after the mixing of the solution. Higher flow rates resulted in more calcium carbonate scale mass, which indicate that the fluid flow enhances the scale formation. Similarly, increasing the temperature of the solution (25, 30, and 40 °C) resulted in the increase of the scale mass. Overall, higher malic acid concentrations resulted in longer induction time and less scale mass. Depending on the temperature and the malic acid concentration tested, the reduction in scale mass could be ≥ 200%. This drastic reduction in scale mass suggests that malic acid could be an effective anti-scalant for calcium carbonate scale. SEM imaging and its associated EDS analysis confirmed that the scale formed corresponds to that of calcite (CaCO3). The X-ray diffraction analysis of the scale showed that the scale consisted of crystalline matter which corresponds to the powder diffraction data for calcium carbonate. The addition of malic acid in trace amounts (0.00 to 5.00 ppm) was able to alter the morphology of the scale crystals, indicating the preference adsorption of malic acid on specific crystal surface.     

An experimental comparison between the aqueous pH scale and the electron donicity scale

We have made an experimental comparison of the aqueous pH scale with the Lewis base donicity scale. This requires an indicator that can function in both kinds of system. We find that the zeta-potential zero charge point for certain oxide materials provides a suitable indicator. The materials are: SiO₂, Al₂O₃, TiO₂, and MgO. For each material, we measure the zeta potential in aqueous media as a function of pH. In each case, the zeta potential varies systematically with pH, and changes sign at some value of pH, that we refer to as the zero charge point. We then do similar measurements in a series of organic liquids having different donicities. In this case, the zeta potential varies systematically with the donicity and may change sign. In such cases, we determine the donicity that corresponds to the zero charge point. For a given oxide material, we can then relate a zero charge point on the pH scale to one on the donicity scale. This gives us a consistent experimental alignment of the pH and donicity scales, relative to one another. We compare our results with thermodynamic data, relating to the pH scale, and the hydrogen electrode, and find good agreement.     

再论电负性标度的发展

电负性是化学中的一个重要概念,在基础化学课程中起着关键作用。本文将电负性研究过程分为三个阶段,简述了关于电负性标度的认识不断深入、逐步发展的过程,在讨论不同电负性标度的基础上,着重讨论了绝对电负性标度和Pauling类型电负性标度的差别性、Allen电负性标度及其修正的Rahm标度等,对深刻理解电负性标度这一基本概念及促进无机化学教学内容的改革均有重要意义。     

Inhibition of Scale Formation Using Silica Nanoparticle

Because of the wide use of water injection for enhanced oil recovery in the oil fields in order to displace oil into the production well, many reservoirs experience scale deposition problems. Scale formation can cause the production path to be blocked and also cause significant reduction in productivity. One of the most common methods for preventing or lowering the amount of scale formation is applying the scale inhibitors. In this work, silica nanoparticles are used as a scale inhibitor. Conductivity is used as a property of the fluid to show the amount of ion in the solution, leading us to predict the amount of scale formed in the solution. An optimum amount of silica nanoparticles could reduce the rate of conductivity decreasing the solution and consequently lowering the scale deposition, which is the aim of this challenging subject in the oil industry.     

A Novel Vanadosilicate with Hexadeca‐Coordinated Cs+ Ions as a Highly Effective Cs+ Remover

The effective removal of ¹³⁷Cs⁺ ions from contaminated groundwater and seawater and from radioactive nuclear waste solutions is crucial for public health and for the continuous operation of nuclear power plants. Various ¹³⁷Cs⁺ removers have been developed, but more effective ¹³⁷Cs⁺ removers are still needed. A novel microporous vanadosilicate with mixed‐valence vanadium (V⁴⁺ and V⁵⁺) ions is now reported, which shows an excellent ability for Cs⁺ capture and immobilization from groundwater, seawater, and nuclear waste solutions. This material is superior to other known materials in terms of selectivity, capacity, and kinetics, and at very low Cs⁺ concentrations, it was found to be the most effective material for the removal of radioactive Cs⁺ ions under the test conditions. This novel vanadosilicate also contains hexadeca‐coordinated Cs⁺ ions, which corresponds to the highest coordination number ever described.     

溶液电导率法对碳酸钙结晶动力学的研究

溶液电导率法对碳酸钙结晶动力学的研究;结垢;电导率     

油田污水中聚丙烯酰胺(HPAM)的降解机理研究

随着聚合物驱油技术在我国油田的大面积推广,含聚丙烯酰胺污水的产量在逐年增加 .聚丙烯酰胺在为油田生产提高原油采收率的同时,也大幅度增加了混合液的粘度和乳化性 ,使油水分离难度加大,造成采出水含油量严重超标.含聚丙烯酰胺污水具有粘度高、油水分离难度大、可生化性差等特点,对环境的负面影响也越来越明显.因此,亟待解决的问题便是部分水解聚丙烯酰胺的降解.本文综述了聚丙烯酰胺化学、生物降解机理,总结了降解聚丙烯酰胺的典型的微生物种群,阐述了生物方法的优势,为油田含聚丙烯酰胺污水的处理研究提供参考.