Reducing total annualized cost and CO₂ emissions in batch distillation: Dynamics and control

Abstract: In this contribution, the direct vapor recompression approach is introduced in a batch distillation operated at an unsteady state condition. This vapor recompressed batch distillation (VRBD) accompanies an isentropic compressor that runs at a fixed as well as variable speed. Aiming to ensure the optimal use of internal heat source, an open-loop control policy is proposed for the VRBD that adjusts either the overhead vapor splitting or the external heat supply to the reboiler. Again, the variable speed VRBD add… Show more

“…The results showed that reductions in energy consumption and CO 2 emissions could be achieved [24]. Babu and Jana introduced a direct vapor recompression approach in a batch distillation operated under an unsteady-state condition and achieved significant improvement in thermodynamic efficiency and environmental impact [25]. Gadalla et al studied CO 2 emissions of a heat-integrated distillation column (HIDiC).…”

Analysis of CO₂ Emission and Economic Feasibility for a Heat‐Integrated Air Separation System

“…The results showed that reductions in energy consumption and CO 2 emissions could be achieved [24]. Babu and Jana introduced a direct vapor recompression approach in a batch distillation operated under an unsteady-state condition and achieved significant improvement in thermodynamic efficiency and environmental impact [25]. Gadalla et al studied CO 2 emissions of a heat-integrated distillation column (HIDiC).…”

Analysis of CO₂ Emission and Economic Feasibility for a Heat‐Integrated Air Separation System

An energy‐efficient cost‐effective transient batch rectifier with bottom flashing: Process dynamics and control

A new divided-wall heat integrated distillation column (HIDiC) for batch processing: Feasibility and analysis