Found 18 results
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2021
R. B. Dudek and Li, F., “Selective hydrogen combustion as an effective approach for intensified chemical production via the chemical looping strategy”, Fuel Processing Technology, vol. 218, p. 106827, 2021.
R. B. Dudek and Li, F., “Selective hydrogen combustion as an effective approach for intensified chemical production via the chemical looping strategy”, Fuel Processing Technology, vol. 218, p. 106827, 2021.
2020
R. F. DeJaco, Loprete, K., Pennisi, K., Majumdar, S., J. Siepmann, I., Daoutidis, P., Murnen, H., and Tsapatsis, M., “Modeling and simulation of gas separations with spiral‐wound membranes”, AIChE Journal, vol. 66, 2020.
R. F. DeJaco, Loprete, K., Pennisi, K., Majumdar, S., J. Siepmann, I., Daoutidis, P., Murnen, H., and Tsapatsis, M., “Modeling and simulation of gas separations with spiral‐wound membranes”, AIChE Journal, vol. 66, 2020.
2019
L. Yan, Edgar, T. F., and Baldea, M., “Dynamic process intensification of binary distillation based on output multiplicity”, AIChE Journal, vol. 65, pp. 1162-1172, 2019.
L. Yan, Edgar, T. F., and Baldea, M., “Dynamic process intensification of binary distillation based on output multiplicity”, AIChE Journal, vol. 65, pp. 1162–1172, 2019.
L. Yan, Edgar, T. F., and Baldea, M., “Dynamic Process Intensification of Binary Distillation via Periodic Operation”, Industrial and Engineering Chemistry Research, vol. 58, pp. 5830-5837, 2019.
L. Yan, Edgar, T. F., and Baldea, M., “Dynamic Process Intensification of Binary Distillation via Periodic Operation”, Industrial and Engineering Chemistry Research, vol. 58, pp. 5830–5837, 2019.
L. M. Neal, Haribal, V. Pralhad, and Li, F., “Intensified Ethylene Production via Chemical Looping through an Exergetically Efficient Redox Scheme”, iScience, vol. 19, pp. 894–904, 2019.
L. M. Neal, Haribal, V. Pralhad, and Li, F., “Intensified Ethylene Production via Chemical Looping through an Exergetically Efficient Redox Scheme”, iScience, vol. 19, pp. 894-904, 2019.
L. Yan, Edgar, T. F., and Baldea, M., “Maximizing energy savings attainable by dynamic intensification of binary distillation”, Studia Universitatis Babeș-Bolyai Chemia, vol. 64, pp. 357-369, 2019.
L. Yan, Edgar, T. F., and Baldea, M., “Maximizing energy savings attainable by dynamic intensification of binary distillation”, Studia Universitatis Babeș-Bolyai Chemia, vol. 64, pp. 357–369, 2019.
L. Neal, Haribal, V., McCaig, J., H. Lamb, H., and Li, F., “Modular‐scale ethane to liquids via chemical looping oxidative dehydrogenation: Redox catalyst performance and process analysis”, Journal of Advanced Manufacturing and Processing, vol. 1, p. e10015, 2019.
L. Neal, Haribal, V., McCaig, J., H. Lamb, H., and Li, F., “Modular‐scale ethane to liquids via chemical looping oxidative dehydrogenation: Redox catalyst performance and process analysis”, Journal of Advanced Manufacturing and Processing, vol. 1, p. e10015, 2019.
R. B. Dudek, Tian, X., Blivin, M., Neal, L. M., Zhao, H., and Li, F., “Perovskite oxides for redox oxidative cracking of n-hexane under a cyclic redox scheme”, Applied Catalysis B: Environmental, pp. 30-40, 2019.
R. B. Dudek, Tian, X., Blivin, M., Neal, L. M., Zhao, H., and Li, F., “Perovskite oxides for redox oxidative cracking of n-hexane under a cyclic redox scheme”, Applied Catalysis B: Environmental, pp. 30–40, 2019.
X. Tian, Dudek, R. B., Gao, Y., Zhao, H., and Li, F., “Redox oxidative cracking of n-hexane with Fe-substituted barium hexaaluminates as redox catalysts”, Catalysis Science and Technology, vol. 9, pp. 2211-2220, 2019.
X. Tian, Dudek, R. B., Gao, Y., Zhao, H., and Li, F., “Redox oxidative cracking of n-hexane with Fe-substituted barium hexaaluminates as redox catalysts”, Catalysis Science and Technology, vol. 9, pp. 2211–2220, 2019.