Polymerization Reactor Monitoring by In-line Raman Spectrometry

Journal of materials science & engineering Pub Date : 2017-12-28 DOI:10.17265/2161-6213/2017.11-12.004

Ramiro Infante Martinez, A. Ramírez, R. González, R. D. D. León, L. V. Cárdenas, Esther Treviño Martínez, Alejandro Díaz Elizondo, Beatriz Reyes Vielma

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引用次数: 1

Abstract

This paper explores the feasibility of using in-line Raman spectrometry to monitor different monomer-solvent-polymer systems by different techniques: in-line, by an immersion probe; in-line, but externally aiming the spectrometer through the glass of the reactor wall; and off-line, taking the samples in small vials. The monitoring of chemical systems was done in the absence of polymer in order to simplify and facilitate the initial studies as well as in polymerization reactors operated with different processes: coordination polymerization of styrene-myrcene, anionic polymerization of myrcene, styrene emulsion polymerization, and methyl methacrylate—butyl acrylate mini-emulsion copolymerization. In all of these systems, it is of interest having an online monitoring technique for feedback control which would increase the productivity of the process, the quality of the product and the safety of the operation. Results show that Raman spectrometry was always capable to reproduce the trend of the process, with reasonable deviation with respect to gravimetric analysis.

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聚合反应器在线拉曼光谱监测

本文探讨了利用在线拉曼光谱法通过不同的技术来监测不同单体-溶剂-聚合物体系的可行性:在线，通过浸入探针;通过反应器壁的玻璃将光谱仪对准外;离线时，用小瓶取样。化学系统的监测是在没有聚合物的情况下进行的，以便简化和促进初始研究，以及在不同工艺操作的聚合反应器中进行:苯乙烯-月桂烯的配位聚合，月桂烯的阴离子聚合，苯乙烯乳液聚合和甲基丙烯酸甲酯-丙烯酸丁酯的微乳液共聚。在所有这些系统中，有一种在线监测技术用于反馈控制，这将提高过程的生产率，产品的质量和操作的安全性。结果表明，拉曼光谱法能较好地再现该过程的变化趋势，但相对于重量分析有一定的偏差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of materials science & engineering

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