Study on the influence of humic acid of different molecular weight on basic ion exchange resin's adsorption capacity

In this paper, humic acid （HA） was ultra-filtered into different molecular weight sections and was characterized by multielement analysis, UV254/TOC, FT-IR and three-dimensional fluorescence spectrometric. Since humic acids of different molecular weights have different hydrophilic and molecular size, the maximum adsorption capacity of basic ion exchange resins appears on the humic acid whose molecular weight ranges from 6000 to 10,000 Da.

ADSORPTION OF HUMIC SUBSTANCES BY MACRO WEAKLY BASIC IONEXCHANGE RESIN AND THEIR EFFECTS ON REMOVAL OF Cu^(2+) AND Pb^(2+)

Adsorption of humic, tannic and gallic acids by a macro weakly basic ion-exchange resin JN-01 was studied. The adsorption capacity of this resin for gallic and tannic acids is much higher than that for humic acid, which can be explained on the basis of both their molecular size and ionization degree. Furthermore, humic acid is separated into different components with molecular weight in the range from 2000 Da to 100000 Da by ultra-filter, and their adsorption isotherms on resin JN-01 indicate that humic acid＇s molecular weight is an important factor which makes significant influence on adsorption. Finally, changes in the amount of Cu^2＋ and Pb^2＋ adsorbed on resin JN-01 as a function of the concentration of each of these three acids were studied. A large increase in the heavy metal ions uptake is observed in the presence of humic substance, such advantages are due to the interactions between the heavy metal ions and the unbound functional groups of the adsorbed organic acids.

Influence of Basicity on the Formation of Cluster Ions/Adduct Ions for Organic Ammonium Halides by Positive Secondary Ion Mass Spectrometry

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On-line Measurement of Water-Soluble Ions in Ambient Particles

Combining the system of rapid collection of ambient particles and ion chromatography, the system of rapid collection of fine particles and ion chromatography （RCFP-IC） was established to automatically analyze on-line the concentrations of water-soluble ions in ambient particles. Here, the general scheme of RCFP-IC is described and its basic performance is tested. The detection limit of RCFP-IC for SO4^2-, NO3^-, NO2^-, Cl^- and F- is below 0.3μg m^-3. The collection efficiency of RCFP-IC increases rapidly with increasing sized particles. For particles larger than 300 nm, the collection efficiency approaches 100%. The precision of RCFP-IC is more than 90% over 28 repetitions. The response of RCFP-IC is very sensitive and no obvious cross-pollution is found during measurement. A comparison of RCFP-IC with an integrated filter measurement indicates that the measurement of RCFP-IC is comparable in both laboratory experiments and field observations. The results of the field experiment prove that RCFP-IC is an effective on-line monitoring system and is helpful in source apportionment and pollution episode monitoring.

Treatment of drilling wastewater using a weakly basic resin

Macroporous weak basic anion exchanger （D301R） was used to remove organic substances from drilling wastewater. The effect of pH, temperature and contact time on adsorption behavior was investigated in batch experiments, which indicated that the COD （Chemical Oxygen Demand） removal ratio of drilling wastewater was approximately 90%, and the COD of treated wastewater was below 70 mg/L under appropriate operating conditions. A mixed liquor of NaOH and NaCI was selected as desorbent because of its better elution performance. The results of column dynamic adsorption and regeneration showed that the COD of wastewater could be efficiently removed by D301R resin, and the resin was easily regenerated by the selected desorbent.

基于SP+模型的三元锂离子电池基本反应模型参数修正研究

通过改进单粒子模型(SP+模型)对电池基本参数进行预测及限制负极电位来获得充电安全边界是快充策略应用的有效评估方法。SP+模型需建立在三电极电池的基础上,在各种特性上与真实电池有一定的区别,这导致利用负极电位评估方法在预测精度上存在一定的差异。针对上述问题建立电池基本反应模型,将修正因子导入到涉及SOC、正负极电位、正负极嵌锂浓度的电池平衡电动势表达式中,设置相应的测试计划对修正因子进行标定,实现在25℃和特定SOC情况下对三元锂离子电池平衡电动势及正负极电势预测精度的提升,为后续安全边界评估开路正负极电位预测值提供参考。

孔雀绿-磷钼杂多酸离子缔合物分光光度法测定钨制品中的痕量磷

实验研究了在聚乙烯醇存在下,采用孔雀绿-磷钼杂多酸离子缔合物分光光度法测定钨制品中痕量磷。考察了掩蔽剂的选择及用量、硫酸用量、钼酸铵用量、孔雀绿用量、聚乙烯醇用量、显色时间以及显色温度等几个关键因素对测定结果的影响。实验表明,采用柠檬酸络合钨以及钨基体匹配工作曲线消除钨的干扰,在聚乙烯醇存在下,磷钼杂多酸与碱性染料孔雀绿反应生成稳定的离子缔合物。该缔合物的最大吸收波长为620 nm,摩尔吸光系数ε为1.05×10^(5) L/(mol·cm),磷在0~0.08μg/mL含量范围内遵守朗伯比尔定律。该方法的线性相关系数R2=0.9998,加标回收率在99%~102%之间,可测量含量在0.0030%以下的痕量磷,实验结果满足目前钨制品生产中磷的分析要求,可成功地应用于钨制品中磷含量的测定。

废旧锂离子动力电池回收:从基础研究到产业化

废旧锂离子动力电池回收对解决环境污染以及资源短缺问题具有重要意义。本文基于回收技术和回收市场两个方面,从基础研究到产业化概述了废旧锂离子动力电池回收技术及发展趋势,总结了新型回收技术研究进展,结合国内外废旧电池回收政策,详细分析了我国当前废旧电池回收市场现状及产业化问题,并提出了相应的可行性解决方案。

在阴离子交换树脂催化剂上合成二丙酮醇的动力学研究

动力学研究表明,在碱性树脂催化剂上丙酮缩合制二丙酮醇是一个1-1级可逆反应,本文对此多相催化的反应机理进行了探讨。

碱性离子水乳化三油酸甘油酯及胆固醇的试验研究

为检验碱性离子水对血脂的影响,我们对碱性离子水乳化三油酸甘油酯及胆固醇进行试验,并以自来水及与碱性离子水pH值相同的碱性自来水为对照。结果表明,碱性离子水乳化三油酸甘油酯和胆固醇的情况依次好于碱性自来水和自来水。

二丙酮醇生产工艺的改进

探讨了用强碱性阴离子交换树脂催化下合成二丙酮醇的适宜工艺．选择了合适的工艺条件，反应周期短，催化剂寿命长．如，反应从催化剂上端进料，反应温度20～25℃，单程反应的最短时间为4h．收率92％，比重0．93，折光率1．4240～1．4242产品质量与文献值相符．催化剂寿命大于150h．

强酸弱碱型两性离子交换纤维的制备II-磺化及吸附性能研究

在预辐照PP纤维接枝苯乙烯和4-乙烯基吡啶的基础上,通过进一步的磺化,制得了系列强酸弱碱两性离子交换纤维,本文采用元素分析、红外光谱、电子能谱等手段对纤维的结构进行了分析,采用化学滴定、原子吸收光谱等方法对两性纤维的性能进行表征,探索两性纤维对水溶液中金属离子交换吸附的应用前景。

强酸型离子交换纤维PVF-g-SO_3H对碱性氨基酸的分离研究

研究强酸型阳离子交换纤维PVF g SO3 H对碱性氨基酸L 组氨酸和L 赖氨酸的吸附分离性能 ,并与 73 2号树脂进行比较 .结果表明PVF g SO3 H纤维不仅对单组份赖氨酸或组氨酸的吸附率比 73 2号树脂高约 1 5%～ 3 9% ,而且其洗脱率高约 1 2 5%～ 1 3 4 % ,同时对混合氨基酸的洗脱峰既强而且分辨率高 .再生后纤维和树脂的总提取率都有微小的下降 ,但纤维的再生提取率仍高于 73 2号树脂 1 0 %以上 .实验的最佳洗脱条件为 :洗脱液柠檬酸 柠檬酸钠的pH值为 4 6,填充柱长径比为 2 0 ,洗脱速率为 1mL/min .

杀菌剂戊唑醇的合成及表征

以对氯苯甲醛和频哪酮为原料,经缩合、氢化、环氧化和开环反应合成杀菌剂戊唑醇。反应工艺选择了强碱性离子交换树脂为碱性催化剂以及采用CO2中和体系中的碱性物质,使4,4-二甲基-1-(4-对氯苯基)-1-戊烯-3-酮的收率达到98.3%,纯度达到97.4%;开环反应中利用1,2,4-三唑的两种异构体热力学稳定性差异,在强碱性离子交换树脂作用下使用了催化剂N,N-二甲基-4-氨基吡啶,使戊唑醇的纯度达到98.2%,收率达到67%以上。

MgO-CaO-SiO_2焊接熔渣离子活度的热力学分析

针对焊接熔渣分子理论及离子理论存在的局限, 基于冶金界近年来提出的熔渣共存理论, 结合 MgO CaO SiO2 高温三元相图确定的结构单元, 利用质量平衡原理建立了MgO CaO SiO2 三元熔渣离子活度热力学计算模型, 并借助于Matlab计算工具进行数值求解。计算结果表明, 该模型可同时兼顾熔渣的分子理论和离子理论, 离子活度随碱度的变化与碱度理论及直流焊接冶金电化学实验结果一致, 在焊接化学冶金定量研究方面显示出良好的应用前景。

光学碱度在玻璃中的应用及其与元素性质的关系

光学碱度是玻璃酸碱性的尺度,是玻璃结构特性的反映,直接影响玻璃的化学和物理性质。本文介绍了玻璃光学碱度的概念、实验测定和理论计算方法,综合评述了玻璃光学碱度与元素电负性、O2-极化率、O1s结合能之间的变化规律,讨论和分析了参数之间变化的定性趋势和定量方程,总结了玻璃光学碱度的本质及其相关性质,对进一步研究光学碱度在不同玻璃系统中的应用及其变化规律的必要性做出了展望。

对高炉冶炼钒钛磁铁矿问题的新认识

高炉冶炼钒钛磁铁矿的诸多特殊现象都是因为炉渣中含有大量的ＴｉＯ２。ＴｉＯ２还原产生的Ｔｉ（Ｃ，Ｎ）较多地富集于炉渣表面，起到稳定泡沫渣的作用，还原入铁水中的Ｔｉ在１２００℃左右以Ｔｉ（Ｃ，Ｎ）的形式析出于铁水表面，改善了渣铁的润湿性，使随炉渣流失的金属铁增多。利用离子碱度可以较好地表示出炉渣脱硫能力的变化，有利于选择合适的炉料结构。炉渣的溶化性温度随渣中ＴｉＯ２和ＣａＯ含量的提高而提高。

氯离子对氧化镁纳米粉体合成及烧结性能的影响研究

以无水碳酸钠和六水合氯化镁为原料,采用沉淀法,制备了纳米MgO粉体,重点考察了氯离子在粉体合成中的影响。研究表明,在沉淀工艺中掺入氯离子,可以改变先驱物的物相组成,获得以碱式碳酸镁和水合碳酸镁为主要组分的先驱物,在900℃煅烧后可以获得一次颗粒尺寸为40nm的MgO粉体。粉体制备中加入氯离子,烧结时具有促进氧化镁烧结致密化和晶粒长大的作用,同时还有利于获得晶粒尺寸分布均匀的显微组织。掺杂5%(质量分数)氯离子的粉体在空气气氛1200℃烧结3h,样品密度为96.4%,而相同条件下未掺杂氯离子样品的密度只有52.4%。

含碱性表面基团活性炭去除Cr(Ⅵ)的研究

介绍了用氧化剂和高温处理制取含碱性表面基团活性炭的方法 ,测定了它们的离子交换容量。研究了溶液pH和Cr(Ⅵ )的初始浓度对Cr(Ⅵ )去除率的影响。讨论了含碱性表面基团活性炭对溶液中Cr(Ⅵ )