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Numerical and analytical model for Taylor flow in tubular CO2 electrolyser
Numerical and analytical model for Taylor flow in tubular CO2 electrolyser
15
mentions
4
contributors
Description
Numerical simulations in COMSOL based on the unit cell approach for gas-liquid Taylor flow in a tubular flow cell. The COMSOL files are generated and analysed via a link to matlab (therefore livelink needs to be used to run all files; see README.txt). The Matlab files further include an analytical correlation which can be run without COMSOL. The code pretains to the data shown and discussed in the publication "Electrochemical Reduction of CO2 in Tubular Flow Cells under Gas–Liquid Taylor Flow" and Chapter 2 of the PhD dissertation of Bagemihl.
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- CC-BY-NC-ND-4.0
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- 1.Author(s): Huai Qin Fu, Tingting Yu, Jessica White, Ji Wei Sun, Yuming Wu, Wen Jing Li, Nicholas M. Bedford, Yun Wang, Thomas E. Rufford, Cheng Lian, Porun Liu, Hua Gui Yang, Huijun ZhaoPublished in Chem by Elsevier BV in 2025, page: 10236210.1016/j.chempr.2024.10.029
- 2.Author(s): Fu-Zhi Li, Hai-Gang Qin, Jun GuPublished in EnergyChem by Elsevier BV in 2025, page: 10015610.1016/j.enchem.2025.100156
- 3.Author(s): Jieyang Li, Changhao Luo, Huanlei Zhang, Zijia Huang, Zhan Jiang, Jianuo Chen, Thomas S. Miller, Kun Jiang, Rhodri Jervis, Yongye Liang, Meng LinPublished in Communications Chemistry by Springer Science and Business Media LLC in 202510.1038/s42004-025-01645-5
- 4.Author(s): Jorrit Bleeker, Lisanne C. Bakker, Sue S.J. van Deursen, Timo J.J.M. van Overveld, Katie M.R. Lawrence, Isabell Bagemihl, Giacomo Lastrucci, Duco Bosma, Christiaan V. Schinkel, Evert C. Wagner, J. Ruud van Ommen, David A. VermaasPublished in 202510.1016/j.checat.2025.101547
- 5.Author(s): Xiao Kun Lu, Linsey C. SeitzPublished in Chemical Society Reviews by Royal Society of Chemistry (RSC) in 2025, page: 6088-612110.1039/d5cs00040h
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- 7.Author(s): Jungki Ryu, Dong Woog LeePublished in Journal of Materials Chemistry A by Royal Society of Chemistry (RSC) in 2024, page: 10012-1004310.1039/d4ta00453a
- 8.Author(s): Yuan Zhou, Ke Wang, Shaojie Zheng, Xiao Cheng, Yanxiao He, Wei Qin, Xinghong Zhang, Haixing Chang, Nianbing Zhong, Xuefeng HePublished in Chemical Engineering Journal by Elsevier BV in 2024, page: 15016910.1016/j.cej.2024.150169
- 9.Author(s): Lin Gu, Abhishek Dutta ChowdhuryPublished in Journal of Catalysis by Elsevier BV in 2024, page: 11576810.1016/j.jcat.2024.115768
- 10.Author(s): Chunsong Li, Haochen Zhang, Wenxuan Liu, Lin Sheng, Mu-Jeng Cheng, Bingjun Xu, Guangsheng Luo, Qi LuPublished in Nature Communications by Springer Science and Business Media LLC in 202410.1038/s41467-024-45179-1
- 11.Author(s): Daniel O. Morales, Alejandro Regalado-Méndez, César Pérez-Alonso, Reyna NatividadPublished in Chemical Engineering Research and Design by Elsevier BV in 2023, page: 247-25810.1016/j.cherd.2023.08.045
- 12.Author(s): Daniël P. Faasen, Farzan Sepahi, Dominik Krug, Roberto Verzicco, Pablo Peñas, Detlef Lohse, Devaraj van der MeerPublished in Physical Review Fluids by American Physical Society (APS) in 202310.1103/physrevfluids.8.093501
- 13.Author(s): Tetuko Kurniawan, Mahsa Sahebdivani, Damian Zaremba, Slawomir Blonski, Piotr Garstecki, Volkert van Steijn, Piotr M. KorczykPublished in Chemical Engineering Journal by Elsevier BV in 2023, page: 14560110.1016/j.cej.2023.145601
- 14.Author(s): Hao Feng, Ying Zhang, Dong Liu, Qiang LiPublished in Chinese Science Bulletin by Science China Press., Co. Ltd. in 2023, page: 3275-329210.1360/tb-2022-1319
Contributors
CB
Chaitanya Bhatraju
IB
Isabell Bagemihl
JvO
J.Ruud van Ommen
VvS
Volkert van Steijn
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