Chapter 3 introduced that 9-hydroxyl xanthene carboxyl ester is synthesized by microwavecatalysis.
第三章介绍了微波催化改进9-羟基-呫吨羧酸甲酯合成研究。
参考来源 - 9In the microwave catalysis process, under the condition of pH=2.5,30%H2O2=4.20ml/L,Fe2+=533mg/L,reaction time(t)=5min and the 1.0g dosage of catalyst,the COD in effluent was 235mg/L,with 87.5% of removal rate.
微波催化氧化在pH=2.5,30%H2O2=4.20ml/L,Fe2+=533mg/L,催化剂加入量1.0g,反应时间t=5min条件下,可使渗滤液出水COD降至235mg/L,去除率为87.5%,达到垃圾渗滤液排放二级标准。
参考来源 - 高氮低碳垃圾渗滤液处理试验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
此外,微波催化还广泛应用于石油化工、材料制备等方面。
Moreover, microwave catalysis could also be applied in oil chemistry, material production.
微波催化是微波化学的一个重要分支,也是国际上的研究热点。
Microwave catalysis is an important branch of microwave chemistry, and it is the focus of international research.
初步探讨了微波催化有机反应的作用机理,并展望了有机微波化学的发展前景。
The catalytic mechanism of the microwave irradiation to organic reactions and the development of microwave chemistry are discussed.
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