In this research, Licl is the desiccant in liquid dehumidification system.
本研究中,液体除湿系统采用的除湿剂为氯化锂。
Methods By using complex mutagenesis of LiCl and ultraviolet rays, we deal with the simple spore suspension.
方法采用氯化锂和紫外线复合诱变单孢子悬浮液。
Regeneration performance of liquid desiccant was studied experimentally for the LiCl-H2O desiccant cooling system (DECS).
基于以氯化锂水溶液为除湿剂的除湿冷却系统(DECS),对其溶液的再生过程进行实验研究。
The xanthate derivative method, halogenated solvent method and amide LiCl method for preparing chitin fiber are introduced.
介绍了制备甲壳素纤维的黄化法、含卤溶剂法和酰胺氯化锂法。
The statistical analysis shows clearly that different phase of the LiCl system possesses different character of the local structure.
计算清楚地表明,不同的相具有不同的局部结构特征。
Licl liquid dehumidification system has been used extensively in abroad, but it only has been used in medicinal capsule production in our country.
采用氯化锂作为除湿剂的液体除湿系统在国外应用较为广泛,而在国内仅用于药用胶囊的生产中。
This process has the following advantages compared with LiCl melt electrolysis process: low cost, high lithium purity, without environment pollution.
本法与氯化锂熔体电解制取锂的工艺相比,具有产品成本低、纯度高、环境状况好的优点。
The effect of LiCl concentration on deposition potentials of Li ion at al cathode in KCl - LiCl melt was studied and average active coefficient of LiCl was obtained.
还研究了在氯化钾-氯化锂体系中,氯化锂浓度对锂离子在铝阴极上析出电位的影响,求出了氯化锂的平均活度系数。
The effect of LiCl concentration on deposition potentials of Li ion at al cathode in KCl - LiCl melt was studied and average active coefficient of LiCl was obtained.
还研究了在氯化钾-氯化锂体系中,氯化锂浓度对锂离子在铝阴极上析出电位的影响,求出了氯化锂的平均活度系数。
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