Application of flow chemistry in toluene nitrification

Abstract

The invention discloses an application of flow chemistry in toluene nitrification. Toluene is used as a solvent, nitric acid is used as a nitrating agent, sulfuric acid is used as a catalyst, and a nitration reaction is carried out in a micro-channel reactor. The micro-channel reactor is applied to toluene nitration reaction, the advantages of high target product selectivity, high reaction speed and mild and easily-controlled reaction of the micro-channel reactor are utilized, and compared with a traditional method, the reaction temperature is lower than that of industrial toluene nitration reaction; meanwhile, the large specific surface area of the micro-channel reactor is utilized, heat exchange of a reaction system is fast, and the possibility of accidents caused by misoperation is reduced.

Description

technical field

[0001] The invention belongs to the technical field of chemical materials, and in particular relates to the application of flow chemistry in toluene nitration. Background technique

[0002] Mononitrotoluene has three isomers, ortho, meta, and para. Both p-nitrotoluene and o-nitrotoluene are important chemical materials, and both compounds are products of primary nitration of toluene.

[0003] However, the nitrification reaction is carried out in a conventional reactor, and the reaction process is difficult to control. If the heat of reaction is concentrated and the heat is not transferred in time, the partial reaction of the reactor will be overheated, resulting in a huge safety hazard. At the same time, side reactions and over-reactions are prone to occur. High concentration will also lead to the decomposition of nitric acid to produce a large amount of nitrogen dioxide gas, which will pollute the environment. Therefore, we propose an application of flow che...

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