Selected publications in recent 5 years:
[1] Q. He, W. Huang, J. Xu et al., “A hybrid immersed interface and phase-field-based lattice Boltzmann method for multiphase ferrofluid flow,” Computers & Fluids, vol. 255, 2023.
[2] Q. He, W. Huang, Y. Yin et al., “A lattice Boltzmann model for liquid-vapor-solid flow with thermal phase change,” Computers & Mathematics with Applications, vol. 114, pp. 60-72, 2022.
[3] Q. He, W. Huang, Y. Yin et al., “A Droplet-Manipulation Method Based on the Magnetic Particle-Stabilized Emulsion and Its Direct Numerical Simulation,” Langmuir, vol. 38, no. 27, pp. 8211-8221, Jul 12, 2022.
[4] Q. He, W. Huang, Y. Yin et al., “An improved lattice Boltzmann model for fluid–fluid–solid flows with high viscosity ratio,” Physics of Fluids, vol. 34, no. 9, 2022.
[5] Q. He, W. Huang, Y. Yin et al., “A mass-conserving and volume-preserving lattice Boltzmann method with dynamic grid refinement for immiscible ternary flows,” Physics of Fluids, vol. 34, no. 9, 2022.
[6] Q. He, Y. J. Li, W. F. Huang et al., “Lattice Boltzmann model for ternary fluids with solid particles,” Physical Review E, vol. 101, no. 3, Mar 27, 2020.
[7] Q. He, Y. J. Li, W. F. Huang et al., “Lattice Boltzmann model for dense suspended particles based on improved bounce-back method,” Computers & Mathematics with Applications, vol. 80, no. 3, pp. 552-567, Aug 1, 2020.
[8] Q. He, Y. J. Li, W. F. Huang et al., “A unified lattice Boltzmann model for immiscible and miscible ternary fluids,” Computers & Mathematics with Applications, vol. 80, no. 12, pp. 2830-2859, Dec 15, 2020.
[9] Q. He, Y. Li, W. Huang et al., “Lattice Boltzmann simulations of magnetic particles in a three-dimensional microchannel,” Powder Technology, vol. 373, pp. 555-568, 2020.
[10] Q. He, D. Liu, W. Huang et al., “Interactions of Oil Drops Induced by the Lateral Capillary Force and Surface Tension Gradients,” Langmuir, vol. 35, no. 46, pp. 14967-14973, Nov 19, 2019.
[11] Q. He, Y. J. Li, W. F. Huang et al., “Phase-field-based lattice Boltzmann model for liquid-gas-solid flow,” Physical Review E, vol. 100, no. 3, Sep 24, 2019.
[12] Q. He, W. F. Huang, Y. Liu et al., “Contact status between seal ring and its support: crucial factor in hydrostatic mechanical face seal,” Industrial Lubrication and Tribology, vol. 71, no. 7, pp. 885-892, Sep 9, 2019.