Generic approach of using dynamic simulation for industrial emission reduction under abnormal operations: Scenario study of an ethylene plant start-up
Author | Dinh, H. |
Author | Zhang, S. |
Author | Xu, Y. |
Author | Xu, Q. |
Author | Eljack, F. |
Author | El-Halwagi, M. |
Available date | 2023-09-10T17:35:34Z |
Publication Date | 2014 |
Publication Name | Industrial and Engineering Chemistry Research |
Resource | Scopus |
Abstract | Flare minimization under normal and abnormal operating conditions in large-scale industrial processes, especially for refineries and petrochemical plants, is a double-win practice, which simultaneously benefits industrial and environmental sustainability. Unfortunately, proactive and cost-effective flare minimization (PCFM) approaches under abnormal situations are still lacking. In this study, a PCFM approach for an ethylene plant is presented for its start-up operations. This approach employs rigorous steady-state and dynamic models of a front-end deethanizer ethylene plant to serve as a foundation to explore flare root causes during plant start-ups and subsequently a test bed to support both design and operational strategies for start-up flare minimizations. It has been demonstrated that the charge gas compressor (CGC) start-up is the most critical operation, which results in the largest amount of flaring sources. Several start-up strategies at different CGC feed rates and compositions, including scenarios recycling off-spec C 2s and C 3s from downstream recovery units to the CGC inlet as a substitute of a portion of charge gas, are virtually examined to identify the least flaring one. This work contributes to evaluating new start-up strategies, predicting abnormal process dynamic behaviors, and acquiring more precise estimation of flare emission sources. The study shows that the plant flaring can be significantly reduced, while the start-up time is shortened. 2014 American Chemical Society. |
Language | en |
Publisher | American Chemical Society |
Subject | Aliphatic compounds Compressibility of gases |
Type | Article |
Pagination | 15089-15100 |
Issue Number | 39 |
Volume Number | 53 |
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