100 years of scaling up fluidized bed and circulating fluidized bed reactors
This year, 2022, we celebrate the 100-year anniversary of the commercialization of the fluidized bed reactor. In those years, many new processes have been developed, with many of them considered breakthrough technologies, replacing technologies that were no longer considered competitive. Fluidized b...
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sg-ntu-dr.10356-1641202023-01-05T05:18:51Z 100 years of scaling up fluidized bed and circulating fluidized bed reactors Chew, Jia Wei LaMarche, W. Casey Q. Cocco, Ray A. School of Chemical and Biomedical Engineering Engineering::Chemical engineering Fluidization Scale-Up This year, 2022, we celebrate the 100-year anniversary of the commercialization of the fluidized bed reactor. In those years, many new processes have been developed, with many of them considered breakthrough technologies, replacing technologies that were no longer considered competitive. Fluidized beds have the advantages of superior heat transfer and the ability to continuously move solids during operation, along with a list of other attributes. As a result, processes spanning coal and biomass gasification, pyrolysis, fluidized catalyst cracking, acrylonitrile, polyethylene, oxychlorination, and polycrystalline silicon have prospered with the application of fluidized bed technology. Expect that list to continue with current efforts in chemical looping, plastic pyrolysis, methane pyrolysis, and propane dehydrogenation, to name a few. In the past 100 years, the landscape of fluidized beds and circulating fluidized bed reactors has grown in numbers and applications. With those applications comes 100 years of scaling up and optimizing those fluidized beds. We have seen engineering go from an incremental approach to a more fundamental approach using sophisticated models and relevant cold flow experimentation. That engineering work process is still changing. With the onset of better computational platforms, models, and experimental techniques, combined with better statistical tools (e.g., machine learning) and control systems (e.g., artificial intelligence), the application of fluidized bed technology will require less capital, less operating costs, and allow for commercialization in less time. 2023-01-05T05:18:51Z 2023-01-05T05:18:51Z 2022 Journal Article Chew, J. W., LaMarche, W. C. Q. & Cocco, R. A. (2022). 100 years of scaling up fluidized bed and circulating fluidized bed reactors. Powder Technology, 409, 117813-. https://dx.doi.org/10.1016/j.powtec.2022.117813 0032-5910 https://hdl.handle.net/10356/164120 10.1016/j.powtec.2022.117813 2-s2.0-85136588281 409 117813 en Powder Technology © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Chemical engineering Fluidization Scale-Up Chew, Jia Wei LaMarche, W. Casey Q. Cocco, Ray A. 100 years of scaling up fluidized bed and circulating fluidized bed reactors |
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This year, 2022, we celebrate the 100-year anniversary of the commercialization of the fluidized bed reactor. In those years, many new processes have been developed, with many of them considered breakthrough technologies, replacing technologies that were no longer considered competitive. Fluidized beds have the advantages of superior heat transfer and the ability to continuously move solids during operation, along with a list of other attributes. As a result, processes spanning coal and biomass gasification, pyrolysis, fluidized catalyst cracking, acrylonitrile, polyethylene, oxychlorination, and polycrystalline silicon have prospered with the application of fluidized bed technology. Expect that list to continue with current efforts in chemical looping, plastic pyrolysis, methane pyrolysis, and propane dehydrogenation, to name a few. In the past 100 years, the landscape of fluidized beds and circulating fluidized bed reactors has grown in numbers and applications. With those applications comes 100 years of scaling up and optimizing those fluidized beds. We have seen engineering go from an incremental approach to a more fundamental approach using sophisticated models and relevant cold flow experimentation. That engineering work process is still changing. With the onset of better computational platforms, models, and experimental techniques, combined with better statistical tools (e.g., machine learning) and control systems (e.g., artificial intelligence), the application of fluidized bed technology will require less capital, less operating costs, and allow for commercialization in less time. |
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School of Chemical and Biomedical Engineering |
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School of Chemical and Biomedical Engineering Chew, Jia Wei LaMarche, W. Casey Q. Cocco, Ray A. |
| format |
Article |
| author |
Chew, Jia Wei LaMarche, W. Casey Q. Cocco, Ray A. |
| author_sort |
Chew, Jia Wei |
| title |
100 years of scaling up fluidized bed and circulating fluidized bed reactors |
| title_short |
100 years of scaling up fluidized bed and circulating fluidized bed reactors |
| title_full |
100 years of scaling up fluidized bed and circulating fluidized bed reactors |
| title_fullStr |
100 years of scaling up fluidized bed and circulating fluidized bed reactors |
| title_full_unstemmed |
100 years of scaling up fluidized bed and circulating fluidized bed reactors |
| title_sort |
100 years of scaling up fluidized bed and circulating fluidized bed reactors |
| publishDate |
2023 |
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https://hdl.handle.net/10356/164120 |
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1754611266646704128 |