Vision 2050: Reaction Engineering Roadmap

This perspective provides the collective opinions of a dozen chemical reaction engineers from academia and industry. In this sequel to the “Vision 2020: Reaction Engineering Roadmap,” published in 2001, we provide our opinions about the field of reaction engineering by addressing the current situati...

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Published in	ACS Engineering Au Vol. 3; no. 6; pp. 364 - 390
Main Authors	Bollini, Praveen, Diwan, Moiz, Gautam, Pankaj, Hartman, Ryan L., Hickman, Daniel A., Johnson, Martin, Kawase, Motoaki, Neurock, Matthew, Patience, Gregory S., Stottlemyer, Alan, Vlachos, Dionisios G., Wilhite, Benjamin
Format	Journal Article
Language	English
Published	American Chemical Society 20.12.2023
Subjects	circularity reaction engineering electrochemical reactor decarbonization catalysis mechanism
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Abstract	This perspective provides the collective opinions of a dozen chemical reaction engineers from academia and industry. In this sequel to the “Vision 2020: Reaction Engineering Roadmap,” published in 2001, we provide our opinions about the field of reaction engineering by addressing the current situation, identifying barriers to progress, and recommending research directions in the context of four industry sectors (basic chemicals, specialty chemicals, pharmaceuticals, and polymers) and five technology areas (reactor system selection, design and scale-up, chemical mechanism development and property estimation, catalysis, nonstandard reactor types, and electrochemical systems). Our collective input in this report includes numerous recommendations regarding research needs in the field of reaction engineering in the coming decades, including guidance for prioritizing efforts in workforce development, measurement science, and computational methods. We see important roles for reaction engineers in the plastics circularity challenge, decarbonization of processes, electrification of chemical reactors, conversion of batch processes to continuous processes, and development of intensified, dynamic reaction processes.
AbstractList	This perspective provides the collective opinions of a dozen chemical reaction engineers from academia and industry. In this sequel to the “Vision 2020: Reaction Engineering Roadmap,” published in 2001, we provide our opinions about the field of reaction engineering by addressing the current situation, identifying barriers to progress, and recommending research directions in the context of four industry sectors (basic chemicals, specialty chemicals, pharmaceuticals, and polymers) and five technology areas (reactor system selection, design and scale-up, chemical mechanism development and property estimation, catalysis, nonstandard reactor types, and electrochemical systems). Our collective input in this report includes numerous recommendations regarding research needs in the field of reaction engineering in the coming decades, including guidance for prioritizing efforts in workforce development, measurement science, and computational methods. We see important roles for reaction engineers in the plastics circularity challenge, decarbonization of processes, electrification of chemical reactors, conversion of batch processes to continuous processes, and development of intensified, dynamic reaction processes.
Author	Bollini, Praveen Kawase, Motoaki Neurock, Matthew Vlachos, Dionisios G. Stottlemyer, Alan Johnson, Martin Wilhite, Benjamin Gautam, Pankaj Hartman, Ryan L. Hickman, Daniel A. Diwan, Moiz Patience, Gregory S.
AuthorAffiliation	NYU Tandon School of Engineering Process Development Department of Chemical Engineering & Materials Science AbbVie Bioresearch Center Texas A&M University The Dow Chemical Company Polytechnique Montréal Department of Chemical and Biomolecular Engineering Artie McFerrin Dept. of Chemical Engineering University of Minnesota Department of Chemical Engineering William A. Brookshire Department of Chemical and Biomolecular Engineering SABIC
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Author_xml	– sequence: 1 givenname: Praveen surname: Bollini fullname: Bollini, Praveen organization: William A. Brookshire Department of Chemical and Biomolecular Engineering – sequence: 2 givenname: Moiz orcidid: 0000-0001-9019-5291 surname: Diwan fullname: Diwan, Moiz organization: AbbVie Bioresearch Center – sequence: 3 givenname: Pankaj orcidid: 0000-0002-8856-5756 surname: Gautam fullname: Gautam, Pankaj organization: SABIC – sequence: 4 givenname: Ryan L. orcidid: 0000-0002-5364-9933 surname: Hartman fullname: Hartman, Ryan L. organization: NYU Tandon School of Engineering – sequence: 5 givenname: Daniel A. orcidid: 0000-0003-2751-5584 surname: Hickman fullname: Hickman, Daniel A. email: dahickman@dow.com organization: The Dow Chemical Company – sequence: 6 givenname: Martin surname: Johnson fullname: Johnson, Martin organization: Process Development – sequence: 7 givenname: Motoaki surname: Kawase fullname: Kawase, Motoaki organization: Department of Chemical Engineering – sequence: 8 givenname: Matthew orcidid: 0000-0003-1458-7837 surname: Neurock fullname: Neurock, Matthew organization: University of Minnesota – sequence: 9 givenname: Gregory S. orcidid: 0000-0001-6593-7986 surname: Patience fullname: Patience, Gregory S. organization: Polytechnique Montréal – sequence: 10 givenname: Alan surname: Stottlemyer fullname: Stottlemyer, Alan organization: The Dow Chemical Company – sequence: 11 givenname: Dionisios G. orcidid: 0000-0002-6795-8403 surname: Vlachos fullname: Vlachos, Dionisios G. organization: Department of Chemical and Biomolecular Engineering – sequence: 12 givenname: Benjamin surname: Wilhite fullname: Wilhite, Benjamin organization: Texas A&M University
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Copyright	2023 Abbvie, Dow, Lilly, SABIC, and Academic Authors. Published by American Chemical Society
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Snippet	This perspective provides the collective opinions of a dozen chemical reaction engineers from academia and industry. In this sequel to the “Vision 2020:...
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Title	Vision 2050: Reaction Engineering Roadmap
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