LAPSE:2024.1578
Published Article
LAPSE:2024.1578
The Impact of Electrified Process Heating on Process Design, Control and Operations
August 16, 2024. Originally submitted on July 9, 2024
Abstract
We study the impact of switching from combustion heating to electric heating in processes comprising high temperature reaction/separation sequences, where the heat supporting the reaction(s) is substantially provided by combusting a reaction byproduct (fuel gas). A canonical process structure is de?ned. It is shown that the conventional combustion- based process presents signi?cant interactions. An asymptotic analysis is utilized to investigate and compare the dynamic responses of the conventional and electric process configurations. It is demonstrated that the dynamic behavior of the two processes exhibits two timescales, with the faster corresponding to the evolution of the temperatures of the units with high heat duty, and the slow time scale capturing the variables involved in the material balance. A simpli?ed ethylene cracking process example is used to demonstrate these findings.
We study the impact of switching from combustion heating to electric heating in processes comprising high temperature reaction/separation sequences, where the heat supporting the reaction(s) is substantially provided by combusting a reaction byproduct (fuel gas). A canonical process structure is de?ned. It is shown that the conventional combustion- based process presents signi?cant interactions. An asymptotic analysis is utilized to investigate and compare the dynamic responses of the conventional and electric process configurations. It is demonstrated that the dynamic behavior of the two processes exhibits two timescales, with the faster corresponding to the evolution of the temperatures of the units with high heat duty, and the slow time scale capturing the variables involved in the material balance. A simpli?ed ethylene cracking process example is used to demonstrate these findings.
Record ID
Keywords
Energy Systems, Process Design, Process Electrification
Subject
Suggested Citation
Rho JH, Baldea M, Endler EE, Herediac MA, Bojovic V, Pajand P. The Impact of Electrified Process Heating on Process Design, Control and Operations. Systems and Control Transactions 3:570-577 (2024) https://doi.org/10.69997/sct.134037
Author Affiliations
Rho JH: The University of Texas at Austin, McKetta Department of Chemical Engineering, Austin, TX, USA
Baldea M: The University of Texas at Austin, McKetta Department of Chemical Engineering, Austin, TX, USA; The University of Texas at Austin, Oden Institute for Computational Engineering and Sciences, Austin, TX, USA
Endler EE: Shell International Exploration and Production, Houston, TX, USA
Herediac MA: The University of Texas at Austin, McKetta Department of Chemical Engineering, Austin, TX, USA
Bojovic V: Shell International Exploration and Production, Houston, TX, USA
Pajand P: Shell International Exploration and Production, Houston, TX, USA
Baldea M: The University of Texas at Austin, McKetta Department of Chemical Engineering, Austin, TX, USA; The University of Texas at Austin, Oden Institute for Computational Engineering and Sciences, Austin, TX, USA
Endler EE: Shell International Exploration and Production, Houston, TX, USA
Herediac MA: The University of Texas at Austin, McKetta Department of Chemical Engineering, Austin, TX, USA
Bojovic V: Shell International Exploration and Production, Houston, TX, USA
Pajand P: Shell International Exploration and Production, Houston, TX, USA
Journal Name
Systems and Control Transactions
Volume
3
First Page
570
Last Page
577
Year
2024
Publication Date
2024-07-10
Version Comments
DOI Assigned
Other Meta
PII: 0570-0577-676595-SCT-3-2024, Publication Type: Journal Article
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Published Article
LAPSE:2024.1578
This Record
External Link
https://doi.org/10.69997/sct.134037
Article DOI
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