摘要
硼酸酯化法是低成本规模化制备核电级及光电级等高纯硼酸的有效方法之一,但该方法获得的硼酸始终含有痕量钙杂质,影响应用性能。结合酯化法制备工艺,探讨了痕量钙杂质残存机理及脱除方法。纯化样品中杂质含量及产品特征用电感耦合等离子体(ICP)、X射线衍射(XRD)和扫描电镜(SEM)进行分析表征。结果表明,酯化法硼酸中残存钙的含量与原料硼酸中所含杂质种类及其含量没有明显相互依存关系,而与硼酸酯蒸馏温度波动有关联;在硼酸酯水解生成硼酸过程中添加适量含孤对电子的干扰剂,可有效降低硼酸中钙的残存量且不引进其他杂质。基于实验结果提出了痕量钙可能的残存机理和脱除原理。
Borate esterification is one of the effective approaches for low⁃cost and large⁃scale preparation of nuclear power grade and photoelectric grade high⁃purity boric acid.However,the boric acid obtained by this method always contains trace calcium impurities,which affects the application performance.Combined with the esterification process,the residual mecha⁃nism and removal method of trace calcium impurities were discussed.The impurity content and product characteristics in the purified samples were analyzed and characterized by inductively coupled plasma(ICP),X-ray diffraction(XRD)and scanning electron microscope(SEM).The results showed that the content of the residual calcium in esterified boric acid was not significantly dependent on the impurity constituents and their contents of raw boric acid,but it was dependent on the distillation temperature turbulence of borate ester.When an appropriate amount of interfering agent containing lone pair electrons was added during the hydrolysis of borate ester to boric acid,the residual amount of calcium in boric acid could be effectively reduced without introducing other impurities.Based on the experimental results,the possible residual mechanism and removal principle of trace calcium were put forward.
作者
贺正燕
李长伟
田朋
毕胜南
朱培涵
李欣竹
叶俊伟
宁桂玲
HE Zhengyan;LI Changwei;TIAN Peng;BI Shengnan;ZHU Peihan;LI Xinzhu;YE Junwei;NING Guiling(State Key Laboratory of Fine Chemicals,Dalian University of Technology,Dalian 116024;Engineering Laboratory of Boric and Magnesic Functional Material Preparative and Applied Technology)
出处
《无机盐工业》
CAS
CSCD
北大核心
2022年第7期49-54,共6页
Inorganic Chemicals Industry
基金
国家自然科学基金重点基金辽宁联合基金项目(U1808210)。
关键词
硼酸酯
硼酸
高纯硼酸
钙脱除
纯化
borate
boric acid
high⁃purity boric acid
calcium removal
purification