1·The purity of methyl acetate is 99.8%. It can satisfy industrial requirements.
此工艺得到的醋酸甲酯纯度可达到99.8%(质量分数)以上,能够满足工业需求。
2·Several new synthesis methods for methyl acetate are described and reviewed in this paper.
几种合成醋酸甲酯新方法的研究进展被介绍和评论。
3·Study on simulation of reactive dividing-wall distillation column for methyl acetate hydrolysis;
在稳态模拟的基础上,研究了醋酸甲酯水解的反应精馏隔壁塔的控制策略。
4·These conclusions indicated that saline extraction was very helpful for separation of methanol and methyl acetate.
这些结论表明,采用加盐萃取对醋酸甲酯和甲醇进行分离十分有利。
5·The effects of reaction temperature, catalyst amount and mole ratio of water to methyl acetate on conversion were investigated.
实验还测定了反应温度、催化剂用量和水酯比对乙酸甲酯水解率的影响。
6·The experimental results show that the catalytic rectification technique can be successfully used in the hydrolysis of methyl acetate.
实验结果表明催化精馏技术应用于醋酸甲酯的水解反应是可行的。
7·Based on the analysis of hydrolysis of methyl acetate, it was feasible that applied catalytic reaction distillation to hydrolyze methyl acetate.
经过分析醋酸甲酯水解过程,可知利用催化反应精馏方法水解醋酸甲酯是可行的。
8·A catalytic distillation process for the hydrolysis of methyl acetate was established, and its characteristics and applicability were discussed.
建立了醋酸甲酯水解反应精馏实验流程,并探讨了反应精馏的工艺特点和可行性。
9·The high efficient flow guided sieve tray and packing are adopted in the innovation of vinyl acetate Methanol methyl acetate distillation column.
采用高效导向筛板与填料对乙酸乙烯-乙酸甲酯精馏塔进行了技改设计。
10·Preparation of methyl acetate from methanol and acetic acid by reactive rectification was investigated with concentrated sulfuric acid as catalyst.
在中试反应精馏塔中以浓硫酸为催化剂进行了醋酸与甲醇反应制备醋酸甲酯的试验。