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Thermodynamic analysis and process optimization of organosilicon distillation systems

Author

Listed:
  • Li, Chen
  • Wang, Yinglong
  • Chen, Guanghui
  • Li, Quan
  • Gu, Xinchun
  • Li, Xin
  • Wang, Yuguang
  • Zhu, Zhaoyou
  • Li, Jianlong

Abstract

The technical barrier of organosilicon production mainly lies in the separation of crude monomers, which has low product purity and high energy consumption. A novel Light Split distillation process was proposed in this work. Based on the root mean square deviation and the average absolute deviation models, Willson was selected as the thermodynamic model. Taking the total annual cost and gas emissions as the objective function, the traditional distillation process and the Light Split distillation process were improved simultaneously by multi-objective optimization based on the nondominated sorting genetic algorithm II. Furthermore, based on the results of exergy analysis and heat exchange network analysis, the heat matching between cold and heat flows is carried out to achieve the optimization of energy. Results show that the total annual cost and gas emissions of the improved distillation process are reduced by more than 50% compared with the basic distillation process. The total annual cost and gas emissions of the improved Light Split distillation process were reduced by 13.28% and 4.47% compared with the improved traditional distillation process, respectively. Comprehensive consideration, the improved Light Split distillation process has excellent economic and environmental performance, which is of great significance to the efficient separation of organosilicon.

Suggested Citation

  • Li, Chen & Wang, Yinglong & Chen, Guanghui & Li, Quan & Gu, Xinchun & Li, Xin & Wang, Yuguang & Zhu, Zhaoyou & Li, Jianlong, 2022. "Thermodynamic analysis and process optimization of organosilicon distillation systems," Energy, Elsevier, vol. 252(C).
    • Handle: RePEc:eee:energy:v:252:y:2022:i:c:s0360544222009094
    DOI: 10.1016/j.energy.2022.124006
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    References listed on IDEAS

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