LAPSE:2025.0255v1
Published Article
LAPSE:2025.0255v1
Separation Sequencing in Batch Distillation: An Extension of Marginal Vapor Rate Method
June 27, 2025
Abstract
Multi-component batch distillation, wherein multi-component mixtures are separated using a single column, is a crucial separation technique in the chemical industry. Traditionally, the components are separated in the descending order of volatility (direct sequence). Similar to continuous distillation, a specific separation sequence can optimize batch distillation. This work aims to generate such optimal sequence for a batch distillation in a computationally efficient manner. Specifically, the proposed approach extends the marginal vapor rate method, which is used for sequencing continuous distillation to multi-cut batch separation. The approach addresses challenges arising due to dynamic nature of batch distillation. The proposed methodology is validated using simulation case studies.
Multi-component batch distillation, wherein multi-component mixtures are separated using a single column, is a crucial separation technique in the chemical industry. Traditionally, the components are separated in the descending order of volatility (direct sequence). Similar to continuous distillation, a specific separation sequence can optimize batch distillation. This work aims to generate such optimal sequence for a batch distillation in a computationally efficient manner. Specifically, the proposed approach extends the marginal vapor rate method, which is used for sequencing continuous distillation to multi-cut batch separation. The approach addresses challenges arising due to dynamic nature of batch distillation. The proposed methodology is validated using simulation case studies.
Record ID
Keywords
Batch Distillation, Marginal Vapor Method, Separation Sequencing
Subject
Suggested Citation
Sharma P, Jogwar SS. Separation Sequencing in Batch Distillation: An Extension of Marginal Vapor Rate Method. Systems and Control Transactions 4:644-650 (2025) https://doi.org/10.69997/sct.144935
Author Affiliations
Sharma P: Indian Institute of Technology Bombay, Department of Chemical Engineering, Mumbai, Maharashtra, India
Jogwar SS: Indian Institute of Technology Bombay, Department of Chemical Engineering, Mumbai, Maharashtra, India
Jogwar SS: Indian Institute of Technology Bombay, Department of Chemical Engineering, Mumbai, Maharashtra, India
Journal Name
Systems and Control Transactions
Volume
4
First Page
644
Last Page
650
Year
2025
Publication Date
2025-07-01
Version Comments
Original Submission
Other Meta
PII: 0644-0650-1636-SCT-4-2025, Publication Type: Journal Article
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LAPSE:2025.0255v1
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https://doi.org/10.69997/sct.144935
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Jun 27, 2025
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References Cited
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