Process intensification and dynamic control of a vapor-recompression-assisted heterogeneous azeotropic distillation for separating N-butanol/water

IF 3.8 3区工程技术 Q3 ENERGY & FUELS

Chemical Engineering and Processing - Process Intensification Pub Date : 2024-06-22 DOI:10.1016/j.cep.2024.109865

Qingjun Zhang , Yanxi Chen , Changhai Yue , Tianle Yin , Wenyu Xiang

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Abstract

An ecologically beneficial process of vapor-recompression-assisted distillation was proposed, based on the conventional heterogeneous azeotropic distillation, for separating n-butanol and water. The heat integration was also adopted to improve the energy utilization rate of the process. The sequential iterative approach optimized the parameters relating to all those processes. The heat-integrated vapor-recompression-assisted heterogeneous azeotropic distillation arrangement reflects its economic superiority, for reducing total annual cost by 15.121 % and CO₂ emissions by 78.860 % and enhancing second-law efficiency by 102.156 %. An exergy analysis was performed on the intensified processes, which showed that the exergy increases in the configuration coupled with vapor recompression and heat integration were higher than those with only vapor recompression. Dynamic control characteristics were investigated for these three intensified configurations, and both product compositions were well controlled when confronting 20% production rate and feed composition disturbances, and no composition measurement loops were noted in the proposed control schemes.

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用于分离正丁醇/水的蒸汽压缩辅助异相共沸蒸馏的工艺强化和动态控制

在传统异相共沸蒸馏的基础上，提出了一种有利于生态的蒸气压缩辅助蒸馏工艺，用于分离正丁醇和水。该工艺还采用了热集成技术，以提高能源利用率。顺序迭代法优化了所有这些工艺的相关参数。热集成蒸气压缩辅助异相共沸蒸馏装置体现了其经济优势，每年总成本降低了 15.121%，二氧化碳排放量降低了 78.860%，二律效率提高了 102.156%。对强化工艺进行了放能分析，结果表明，蒸汽再压缩和热量集成配置的放能增加率高于仅有蒸汽再压缩的配置。对这三种强化配置的动态控制特性进行了研究，当面对 20% 的生产率和进料成分干扰时，两种产品成分都得到了很好的控制，而且在建议的控制方案中没有发现成分测量回路。

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来源期刊

Chemical Engineering and Processing - Process Intensification 工程技术-工程：化工

CiteScore

7.80

自引率

9.30%

发文量

408

审稿时长

49 days

期刊介绍： Chemical Engineering and Processing: Process Intensification is intended for practicing researchers in industry and academia, working in the field of Process Engineering and related to the subject of Process Intensification.Articles published in the Journal demonstrate how novel discoveries, developments and theories in the field of Process Engineering and in particular Process Intensification may be used for analysis and design of innovative equipment and processing methods with substantially improved sustainability, efficiency and environmental performance.