Novel process development and mechanism analysis of purification of polymer monomers by combining pressure swing distillation and extraction distillation

•A new distillation process for purifying MMA from azeotrope is proposed.•The feasibility of separation are assessed using ternary phase diagram analysis.•Extractive distillation and pressure-swing distillation are coupled for new process.•Heat integrated extractive pressure-swing distillation is us...

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Veröffentlicht in:Separation and purification technology 2024-07, Vol.340, p.126730, Article 126730
Hauptverfasser: Zhong, Jianhui, Zhao, Wenxuan, Jiang, Suzhen, Li, Yaxuan, Zhu, Wenguang, Wang, Kaicong, Zhang, Yan, Li, Xin, Wang, Yinglong
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Sprache:eng
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Zusammenfassung:•A new distillation process for purifying MMA from azeotrope is proposed.•The feasibility of separation are assessed using ternary phase diagram analysis.•Extractive distillation and pressure-swing distillation are coupled for new process.•Heat integrated extractive pressure-swing distillation is used to save more energy.•Evaluate the processes from the economy, environment, energy and exergy. Methyl methacrylate is a new polymer material monomer, which is often used in the manufacture of plexiglass, and has very high industrial application value. Producing high purity methyl methacrylate requires a clean and effective separation process. In this work, an efficient separation method of methyl methacrylate/water/methanol azeotrope based on pressure swing distillation coupled extractive distillation is established. The best entrainer in terms of both environmental impact and effectiveness is chosen by examining the impact of relative volatility. The feasibility of pressure swing distillation and the best separation order are determined by ternary phase diagram analysis. A multi-objective optimization method is used to optimize the three designed processes, targeting gas emissions and total annual costs, thereby obtaining the best process plans and parameters. On this basis, the optimal thermal integration design of the three processes is carried out. The analysis of the four processes is conducted from the viewpoints of the energy, economy, environment and exergy. The findings demonstrate that the pressure swing extractive distillation process when combined can significantly increase economy and lessen mixture separation difficulty. Compared with the traditional process, the total annual cost, gas emission and energy loss are reduced by 8.20%, 10.46%, 11.69%, and the effective energy utilization rate is 50.31%. The development of this process is of great significance for the recovery of wastewater containing methyl methacrylate and methanol and the separation of high-purity methyl methacrylate.
ISSN:1383-5866
DOI:10.1016/j.seppur.2024.126730