Publication detail
Exploring Exergy Performance in Tetrahydrofuran/Water and Acetone/Chloroform Separations
MTOGO, JW. MUGO, GW. VARBANOV, P. SZANYI, A. MIZSEY, P.
Original Title
Exploring Exergy Performance in Tetrahydrofuran/Water and Acetone/Chloroform Separations
Type
journal article in Web of Science
Language
English
Original Abstract
Distillation is significantly influenced by energy costs, prompting a need to explore effective strategies for reducing energy consumption. Among these, heat integration is a key approach, but evaluating its efficiency is paramount. Therefore, this study presents exergy as an energy quality indicator, analyzing irreversibility and efficiencies in tetrahydrofuran/water and acetone/chloroform distillations. Both systems have equimolar feed streams, yielding products with 99.99 mol% purity. The simulations are performed using Aspen Plus (TM), enabling evaluation at the column level, as a standalone process, or from a lean perspective that considers integration opportunities with other plants. The results show that, despite anticipated energy savings from heat integration, economic viability depends on pressure sensitivity. The results demonstrate that heat-integrated extractive distillation for acetone/chloroform raises utility energy consumption. Exergy calculations comparing standalone and total site integration reveal the variation in distillation efficiency with operation mode. Global exergy efficiency in both extractive and pressure-swing distillation depends on the fate of condenser duty. In heat-integrated extractive distillation, global exergy efficiency drops from 8.7% to 5.7% for tetrahydrofuran/water and 11.5% to 8.3% for acetone/chloroform. Similarly, heat-integrated pressure-swing distillation sees global exergy efficiency decrease from 34.2% to 23.7% for tetrahydrofuran/water and 9.5% to 3.6% for acetone/chloroform, underscoring the nuanced impact of heat integration, urging careful process design consideration.
Keywords
heat integration; process intensification; computer modeling; distillation energy efficiency; environmental impact; thermodynamic efficiency
Authors
MTOGO, JW.; MUGO, GW.; VARBANOV, P.; SZANYI, A.; MIZSEY, P.
Released
1. 1. 2024
Publisher
MDPI
Location
BASEL
ISBN
2227-9717
Periodical
Processes
Year of study
12
Number
1
State
Swiss Confederation
Pages from
14
Pages to
14
Pages count
18
URL
BibTex
@article{BUT197366,
author="MTOGO, JW. and MUGO, GW. and VARBANOV, P. and SZANYI, A. and MIZSEY, P.",
title="Exploring Exergy Performance in Tetrahydrofuran/Water and Acetone/Chloroform Separations",
journal="Processes",
year="2024",
volume="12",
number="1",
pages="14--14",
doi="10.3390/pr12010014",
issn="2227-9717",
url="https://www.mdpi.com/2227-9717/12/1/14"
}