出版情况 |
[1] Shenggao Gong*, Ningning Gao*. Consideration of bottleneck effect of entire energy spectrum in bubblecoalescence simulation[J]. Chem. Eng. Sci., 2021, 236: 116501. [2] Shenggao Gong*, Ningning Gao, Luchang Han*, He'an Luo. A theoretical model for bubble coalescence by coupling film drainage with approach processes[J]. Chem. Eng. Sci., 2020, 213: 115387. [3] Shenggao Gong, Luchang Han*, He'an Luo*. A novel multiscale theoretical model for droplet coalescence induced by turbulence in the framework of entire energy spectrum[J]. Chem. Eng. Sci., 2018, 176: 377-399. [4] Shenggao Gong, Luchang Han*, He'an Luo*. A novel multi-scale theoretical model for droplet coalescence in turbulent dispersions[J]. Int. J. Comp. Meth. Exp. Meas., 2018, 6(2): 269-281. [5] Shenggao Gong, Luchang Han, He'an Luo. A novel droplet coalescence model in turbulent dispersions, 9th International Conference on Computational & Experimental Methods in Multiphase & Complex Flow, 2017/6/20-2017/6/22, Tallinn, Estonia, Oral Report. [6] Luchang Han*, Shenggao Gong, Yaowen Ding, Jin Fu, Ningning Gao, He'an Luo*. Consideration of low viscous droplet breakage in the framework of the wide energy spectrum and the multiple fragments[J]. AIChE J., 2015, 61(7): 2147-2168. [7] Luchang Han*, Shenggao Gong, Yongqiang Li, Ningning Gao, Jin Fu, He'an Luo*, Zhifeng Liu. Influence of energy spectrum distribution on drop breakage in turbulent flows[J]. Chem. Eng. Sci., 2014, 117: 55-70. [8] Luchang Han*, Shenggao Gong, Yongqiang Li, Qiuhong Ai, He'an Luo*, Zhifeng Liu, Yuejin Liu. A novel theoretical model of breakage rate and daughter size distribution for droplet in turbulent flows[J]. Chem. Eng. Sci., 2013, 102: 186-199. |