Research Progress about the Mixing Brine Method to Produce Low- Sodium Carnallite from Saline Lake Brine

Mixing brine method,which founded on the commonion effect,is widely used for low-sodium carnallite production.Compared with traditional carnallite preparation techniques,the mixing brine method possess a

APPLICATION OF HIGH-RESOLUTION MAGNETIC METHOD AND GRADIENT METHOD TO LOCATE ABANDONED BRINE-WELLS IN HUTCHINSON, KANSAS, U.S.A.

After successfully locating one abandoned brine well by an electromagnetic method during testing in 2001 and five abandoned brine wells by a high resolution magnetic method during 2002, a high resolution magnetic method was again proposed to search for wells in 2003 when a second sensor was employed to acquire data for calculating the pseudo vertical gradient of magnetic fields. Total area surveyed in 2003 was 1,024,000 ft 2, which was divided into grids with an average size of 10,000 ft 2 and distributed across eight different sites. Magnetic anomalies and their vertical gradients from known brine wells were first recorded as signatures to identify anomalies caused by possible buried brine wells. Of fifty one verified anomalies, thirty one anomalies were due to wells buried at depths from 0 to 8.5 ft: twenty one 6 to 9 inch abandoned brine wells, seven 1.5 to 3 inch probable water wells, one 16 inch dewatering well for a construction site at a depth of 3 ft, and two 4 inch wells on the ground surface. Approximate monopole shaped anomalies were observed from all these wells after data corrections. However, the range of amplitudes of magnetic anomalies from 7,000 to 28,000 nT from these abandoned brine wells was measured. This range of anomalies is mainly due to the thickness and depth of buried wells. Anomaly amplitudes from 1.5 to 3 inch wells are 4,000 to 8,000 nT and linearly correlate with the buried depth. One 3 inch well that caused an anomaly of 13,000 nT could be the inner pipe of a brine well. Gradient anomalies are roughly in a range of 100 to 200 nT/inch for 1.5 to 3 inch wells and 200 to 300 nT/inch for brine wells.As indicated by the potential field theory, gradient data possess higher horizontal resolution than the magnetic field itself. Gradient data provide valuable assistance in determining horizontal locations of anomaly sources for excavation. In practice, however, improvement in the horizontal resolution is limited by survey line spacing. If only one sensor is used in a survey, there is rapid decrease in the horizontal resolution when sensor height increases from 14 to 44 inches. This indicates that it is critical to keep the sensor as close to the ground as possible when hunting buried wells that are close to each other. It also suggests that the downward continuation is useful to increase the horizontal resolution in well hunting.

盐湖卤水中硼酸盐化学形态及Raman光谱定量分析

我国青藏盐湖以富含硼锂而著称,卤水中硼化学赋存状态随湖水化学类型的不同而发生变化,其中以硫酸盐型盐湖卤水中硼酸盐的存在形式变化最为复杂,卤水蒸发过程一般不以固体盐形式结晶析出,而是以多硼物种形式富集于氯化镁饱和老卤中,表现出严重的过饱和性,对后续锂盐和镁盐的分离提取影响较大。开展盐湖卤水体系中硼酸盐化学形态、分布规律及离子间作用机制等溶液化学研究对盐湖资源高效开发具有重要的意义。相比常规拉曼光谱技术,拉曼积分球基于拉曼散射原理可极大地提高激发光的使用效率和拉曼散射信号,对硼酸盐溶液结构检测具有拉曼响应信号强、检出限低、信噪比高等优点,为盐卤复杂体系硼酸盐化学形态的定量分析奠定了基础。利用拉曼积分球开展了盐湖卤水硼酸盐化学形态研究,阐述了卤水蒸发过程多硼酸根离子的变化规律;同时借助响应曲面法进行实验设计与优化,建立了共存盐类干扰回归模型用于盐湖卤水中单硼物种B(OH)_(3)的准确测定。结果表明,盐湖卤水浓缩过程中硼不断聚合生成多聚度硼酸根离子如B_(3)O_(3)(OH)_(4)^(-)和B_(6)O_(7)(OH)_(7)^(2-)等,硼的化学形态变化规律与碱土金属如MgCl_(2)-MgO-2B_(2)O_(3)-H_(2)O体系中硼物种变化一致,但与碱金属溶液体系物种变化差别较大。回归模型对卤水中正硼酸B(OH)_(3)定量分析的相对误差小于5%,准确度较高;阐明了蒸发浓缩过程中B(OH)_(3)物种分布的变化规律,从定量视角初步阐述了卤水富集过程硼酸根离子间的聚合作用关系,可为后续开展盐卤体系多硼物种分布及作用机制研究提供新思路、新方法。

锂吸附剂在油气田卤水中的性能评价

目的油气田卤水含有石油类、悬浮物等杂质,对锂资源的吸附分离存在潜在影响,考查了气田水吸附提锂的可行性及市面主流吸附剂的吸附提锂适应性。方法研究对比了pH、温度对铝系、钛系和锰系3种粉体吸附剂吸附、解吸效果的影响规律;对优选的铝系吸附剂,研究了其吸附剂形态、进卤量、进卤流量对成型吸附剂吸附、解吸效果的影响规律,并评估其循环稳定性。结果在最优条件下,3种粉体吸附剂饱和吸附容量分别约为7.9 mg/g、12.5 mg/g、15.3 mg/g。铝系吸附剂解吸液中钠锂比、钾锂比等要优于钛系和锰系,并且钛系和锰系吸附剂溶损率分别是铝系的20倍和70倍,长期运行情况下使用寿命要远低于铝系吸附剂。采用陶瓷膜去除卤水中的悬浮物和石油类,铝系成型吸附剂在进卤量为20 BV(1 BV=50 mL)、进卤流量为12 BV/h、解吸水量为10 BV、解吸流量为10 BV/h的条件下,连续10次循环单柱实验铝系吸附剂吸附容量和尾卤锂浓度保持稳定,平均锂吸附率为79.2%。结论综合证实采用吸附法提取龙王庙气田卤水中的锂资源是可行。

关于东台吉乃尔盐湖卤水脱硫工艺研究

青海东台吉乃尔锂资源股份有限公司在东台吉乃尔盐湖多年的实地工业实践,不断摸索和探讨卤水中硫酸根的去除方法,方法主要分为原卤除硫酸根、老卤除硫酸根和镁锂分离后卤水除硫酸根,检测方法为硫酸钡重量法、分光光度法和ICP分析法。以东台吉乃尔盐湖天然卤水为试样,经过一系列实验和生产论证,确定了适用于东台吉乃尔盐湖的方法。

锂离子筛在盐湖卤水提锂中的研究进展

综述了锰基锂离子筛、钛基锂离子筛、铝基吸附剂中Li+的脱出、嵌入机理,重点介绍了LIS制备及改性的研究现状和进展,分析了LIS在含Li+溶液中的提锂机理及影响吸附效果的因素;总结了锂离子筛材料中存在的一些问题,并对锂离子筛未来的研究重点和发展方向进行了展望。

吸附—膜耦合法从高镁锂比盐湖卤水中提锂

中国的锂资源主要赋存于高镁锂比盐湖卤水中,提锂难度较高,单一分离手段难以高效提锂,多种盐湖提锂技术的耦合是盐湖提锂的未来发展趋势。采用吸附—膜耦合法对盐湖卤水进行处理,在优化条件下实现了高选择性锂吸附,动态脱附后卤水镁锂比从105.2降低至1.49。考察了不同条件对纳滤膜分离纯化锂的影响。纳滤膜在稀释倍数1.0、温度20℃、操作压力0.4 MPa、pH 4.66、产水原料液比0.54的条件下,锂截留率为2.63%、分离因子为27.3、渗透通量为7.125 L/(m^(2)·h),最终产水镁锂比从最初的105.2降低至0.05,实现了对高镁锂比盐湖卤水中锂资源的绿色高效提取。

盐湖卤水中铷离子的分析方法研究进展

铷是一种稀有金属元素,其用途广泛,在我国盐湖卤水中储量丰富。文章重点介绍了盐湖卤水中铷的分析方法,探讨了原子吸收光谱法、原子发射光谱法、电感耦合等离子体质谱法(ICP-MS法)、X射线荧光光谱法、离子色谱法等仪器分析法在盐湖卤水铷离子分析中的应用,并对各方法的优缺点进行了比较。

衡水地区无偿献血者不规则抗体筛查结果分析

目的对衡水地区无偿献血者血液中不规则抗体进行常规筛查,为进一步提高血液安全,探讨对献血者抗体筛查的必要性。方法采用微板法对所有无偿献血者血液标本进行ABO和RhD血型检测,进而对O细胞有反应的样本、RhD阴性的样本及临床输血科因配血不合怀疑献血者血样存在不规则抗体的血液样本,采用盐水介质法和/或抗球蛋白凝胶卡法进行不规则抗体筛查及直接抗球蛋白实验。结果88525例标本中筛查出不规则抗体初筛阳性116例(0.1310%),其中女性献血者检出率0.2164%,明显高于男性献血者检出率0.0841%,差异有统计学意义(P<0.05)。检出的不规则抗体中IgM抗体阳性率(0.0791%)高于IgG抗体的阳性率(0.0768%),差异具有统计学意义(P<0.05)。直接抗球蛋白试验阳性率为0.0429%。结论衡水地区无偿献血人群中,存在红细胞不规则抗体阳性以及直接抗球蛋白试验阳性的样本,加强和重视对献血者不规则抗体的筛查,对减少临床输血不良反应的发生、提高输血疗效、提高临床安全用血具有重要意义。

盐湖领域常见的深层卤水开采方法列举探讨

盐湖卤水中盐类资源储量十分丰富,卤水中钾、镁、硼、锂、溴的含量远高于海水,构成了极具开发利用价值的盐类资源宝库。文章主要阐述了盐湖领域几种常见的深层卤水开采方法,并对每种方法存在的缺陷及优势加以总结。

淡盐水脱硝工艺的比较

介绍了盐析法和冷冻法的脱硝原理及工艺流程,并比较了这两种工艺的投资和运行成本。盐析法总能耗和运行成本低,是淡盐水脱硝的首选工艺方案。

两碱法卤水净化影响因素研究

以低硝型卤水为研究对象,利用“Na OH-Na_(2)CO_(3)”法对卤水中钙镁离子净化进行深入研究,通过跟踪反应时间、反应温度、过碱量、两碱添加顺序等对净化效果及精卤中残留碳酸根离子浓度影响,来确定合理工艺条件,为生产应用提供参考。

一次盐水精制工序氨吹除塔出口管道结垢的处理

分析了一次盐水精制工序氨吹除塔出口管道结垢的原因及对系统造成的影响,介绍了酸洗法除垢的原理、实施过程及效果。

剪切强化碳化法制备电池级碳酸锂工艺研究

针对传统碳化分解法制备电池级碳酸锂存在生产周期长、二氧化碳利用率低、杂质含量难以达到电池级碳酸锂标准等问题,以低品位锂云母矿石浸出液为原料,研究了碳酸钠沉锂—剪切碳化—离子交换—加热分解工艺制备电池级碳酸锂。结果表明:在温度30℃、液固体积质量比25/1、二氧化碳通入速率0.5 L/min、剪切转速6000 r/min条件下,钙、镁、锰去除率分别达97.26%、81.82%、95.73%。剪切辅助碳化法可显著提升碳化反应速率,缩短反应时间,节省70%以上CO 2气体,更有利于制得电池级碳酸锂。所制备碳酸锂符合电池级碳酸锂标准。

Minimizing chemical interference errors for the determination of lithium in brines by flame atomic absorption spectroscopy analysis

Chemical interferences （ionization and oxide/hydroxide formation） on the atomic absorbance signal of lithium in FAAS analysis of brine samples are elaborated in this article. It is suggested that inadequate or overaddition of deionization buffers can lead to loss of sensitivities under particular operating conditions. In the analysis of brine samples, signal enhancing and oxide/hydroxide formation inducing signal reduction resulting from overaddition of deionization buffers can be seen with varying amounts of chemical buffers. Based on experimental results, the authors have arrived at the optimized operating conditions for the detection of lithium, under which both ionization and stable compound formation can be suppressed. This is a simplified and quick method with adequate accuracy and precision for the determination of lithium in routine brine samples from chemical plants or R＆D laboratories, which contain comparable amounts of lithium with some other components.

Minimizing chemical interference errors for the determination of lithium in brines by flame atomic absorption spectroscopy analysis

Chemical interferences (ionization and oxide/hydroxide formation) on the atomic absorbance signal of lithium in FAAS analysis of brine samples are elaborated in this article. It is suggested that inadequate or overaddition of deionization buffers can lead to loss of sensitivities under particular operating conditions. In the analysis of brine samples,signal enhancing and oxide/hydroxide formation inducing signal reduction resulting from overaddition of deionization buffers can be seen with varying amounts of chemical buffers. Based on experimental results,the authors have arrived at the optimized operating conditions for the detection of lithium,under which both ionization and stable compound formation can be suppressed. This is a simplified and quick method with adequate accuracy and precision for the determination of lithium in routine brine samples from chemical plants or R&D laboratories,which contain comparable amounts of lithium with some other components.

西台吉乃尔盐湖兑卤卤水10℃和30℃蒸发析盐规律

文章采用沸腾蒸发—等温平衡法,综合运用Na^(+)、Mg^(2+)、K^(+)∥Cl^(-)、SO_(4)^(2-)-H_(2)O五元水盐体系15℃和25℃下的介稳相图理论分析、固液相化学组成检测以及粉末X射线衍射(PXRD)固相鉴定,确定了西台吉乃尔盐湖兑卤脱钠后的卤水在10℃和30℃下的蒸发析盐路径和析盐规律,并探究了平衡液相p H值和密度随蒸失水率的变化趋势。相图理论分析和固相鉴定结果表明,西台吉乃尔盐湖析钾点卤水与老卤兑卤脱钠后的卤水在10℃和30℃下的蒸发析盐过程随蒸失水率的增加,氯化钠析出占比不断减少,平衡固相中氯化钠含量最低可低至1.83%,兑卤后卤水的蒸发过程为Car、KCl、Bis、Eps或Hex共析过程,说明通过兑卤脱钠和蒸发结晶的耦合有利于制备高品位的钾镁混盐,为盐湖卤水中钾资源的高效提取和盐湖化学资源的综合利用提供基础数据。

油田卤水提锂工艺中锂的火焰原子吸收光谱法测定

江汉盆地的卤水资源中含有较大量的锂,为实现对卤水中锂资源的提取开发,需对不同提锂阶段中卤水的锂含量进行精确测定。采用火焰原子吸收光谱法(FAAS),对江汉油田卤水提锂各工艺流程中的锂含量进行了测定。通过多次试验验证,确定最优的乙炔流量(1.5 L/min)、火焰高度(4 mm)、灯电流强度(3 mA)、狭缝宽度(0.4 nm)及硝酸酸度(9%的酸(体积比1∶4)溶液)。鉴于各提锂阶段的卤水基体复杂、成分差异显著,设计最佳稀释倍数,对共存离子给测定造成的影响进行了研究。采用质量浓度等于2.0 g/L的K+为消电离剂,选择标准加入法对不同提锂阶段卤水的锂含量进行了测定。结果表明,在最优条件和稀释倍数下,锂的回收率在96.59%~105.75%之间,且方法检出限低(0.007 mg/L),精密度好(RSD<2%)。该方法步骤简单、操作易掌握、干扰小、结果可靠且成本较低,证明FAAS可满足卤水提锂不同阶段中锂的测定要求。

联络通道冻结法设计关键要点及数值模拟

联络通道冻结法以盐水为媒介对岩土体进行冻结,达到满足安全要求的冻结壁厚度。其设计的合理性非常重要,设计关键要点包括设计思路、周边环境及工程地质条件、冻结壁厚度、冻结壁平均温度及交界面温度、单孔盐水流量、盐水温度控制、积极冻结时间等。基于此,以某项目为例,确定该联络通道冻结壁厚度2.5 m,平均温度-10℃,通过数值模拟的方法,对冻结壁的强度和变形进行计算分析,结果表明:冻结壁最大压应力为1.5 MPa,最大拉应力0.3 MPa,最大剪应力0.6 MPa,抗压、抗拉和抗剪的安全系数分别为2.4、6.7和2.5,冻结壁最大移位15.9 mm,满足冻结壁强度和变形要求。该项目的顺利实施表明了该工程设计和数值模拟结果是合理的。

柴达木盆地东台吉乃尔湖西段深层卤水勘探实践与启示

柴达木盆地蕴藏着丰富的盐类矿产资源,但是不同地区的勘探程度存在较大差异。以东台吉乃尔湖西段巴嘎雅乌尔背斜地区的深层盐类矿产资源远景评价为目标,充分分析了预查区的地质、构造与水文地质条件,在此基础上开展了深部钻探和物探工程实践。勘探结果表明,预查区浅部未发现大规模的固体盐类矿产,各项盐类含量也明显偏低,与工业开发指标相差甚远。物探反演结果表明,广域电磁法在预查区不适用于地层划分和断层推断。从储卤层地质与水文地质条件与构造历史演化过程2个方面详细分析了预查区盐类矿产资源匮乏的原因。本次东台吉乃尔湖西段盐类矿产探勘实践丰富了柴达木盆地西部的地质调查工作,并为预查区附近的盐类资源开发提供了一定的参考和启示。