Optimization and experimental validation of an extractive distillation system with solvents mixture as separating agent

•Both stochastic (genetic) and deterministic (SQP) algorithms, coupled with rate-based simulations were used to minimize the TAC of the process.•The ethylene glycol – glycerol mixture significantly reduced the energy consumption of the extractive distillation process.•Experimental validation was con...

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Bibliographic Details
Published in:Chemical engineering and processing 2023-07, Vol.189, p.109387, Article 109387
Main Authors: Jaime, Jesús A., Rodríguez, Gerardo, Betancourt, Juan A., Gil, Iván D.
Format: Article
Language:English
Subjects:
Ethanol dehydration
Experimental validation
Mixed solvents
Optimization
Thermal integration
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Summary:•Both stochastic (genetic) and deterministic (SQP) algorithms, coupled with rate-based simulations were used to minimize the TAC of the process.•The ethylene glycol – glycerol mixture significantly reduced the energy consumption of the extractive distillation process.•Experimental validation was conducted on a pilot scale to verify the synergistic effect of the solvents mixture as entrainer. This work aims to develop an economic optimization and experimental validation of ethanol separation by extractive distillation using an ethylene glycol - glycerol mixture as separating agent with and without thermal integration. An anhydrous ethanol production plant with a capacity of 300 000 L/day was simulated through a rate-based approach in Aspen Plus V10®. The optimization problem was solved, firstly, through a rate-based simulation, using a Sequential Quadratic Programming (SQP) algorithm available in Aspen Plus® and secondly, through a stochastic algorithm (genetic) available in Matlab R2019a®. US$ 0.1034 was the optimized TAC/kg of anhydrous ethanol, this parameter reduced by US$ 0.0004 to US$ 0.0006 when thermal integration was included and differed by less than US$ 0.0038 between both methodologies, where the lowest value was found using the stochastic algorithm. Experimental validation was conducted on a pilot scale extractive distillation to verify the results from the process optimization. The use of the 60–40 mol% ethylene glycol - glycerol mixture showed a 40.1% reduction in the total energy consumption of the process compared to the case where only ethylene glycol is used as entrainer. This allowed to confirm the synergistic effect of the solvents mixture and the possibility of employing them. [Display omitted]
ISSN:0255-2701
1873-3204
DOI:10.1016/j.cep.2023.109387