Journal Publications ('*' is the corresponding author, 2005----):

85. K. Liu, H.B. Huang*, Dynamics of weighted flexible ribbons in a uniform flow, J. Fluid Mech. 990, A11  (2024)

84. Y.F. Ma, H.B. Huang*，Scaling maximum spreading of droplet impacting on flexible substrates, J. Fluid Mech. 958, A35 (2023)

83. X.T. Chang, H.B. Huang*, X.Y. Lu, J. Hou,  Width effect on contact angle hysteresis in a patterned heterogeneous microchannel,  J. Fluid Mech.  949, A15 (2022) 

82. C. Xu, X.C. Liu, K. Liu, Y.F. Xiong, H.B. Huang*, A free flexible flap in channel flow, J. Fluid Mech.  941, A12 (2022)

81. K. Liu, X.C. Liu, H.B. Huang*, Scaling the self-propulsive performance of pitching and heaving flexible plates,  J. Fluid Mech.  936, A9 (2022).

80. C.C. Wang, H.B. Huang*, P. Gao and X-Y Lu, Effect of surfactants on the long-wave stability of two-layer oscillatory film flow, J. Fluid Mech. 928，A19,  (2021).

79. H.Y. Feng, J.G. Zheng, B. Wei，J. Hou, H.B. Huang*，Capsule distributions and flow properties in curved tubes. Phys. Rev. Fluids, 8(1), 013604 (2023).

78. X. C. Liu, K. Liu,  & H.B. Huang*,  Collective behavior and hydrodynamic advantage of side-by-side self-propelled flapping foils. Phys. Rev. E, 105(6), 065105 (2022).

77. X.C. Liu, H.B. Huang*, X-Y Lu,  Elliptical particle suspensions in Couette flow,  Phys. Rev. Fluids  7(4): 044303 (2022).

76. Yu, H., Liu, B., Wang, C., Liu, X., Lu, X. Y.*, & Huang, H.,  Deep-reinforcement-learning-based self-organization of freely undulatory swimmers. Phys. Rev. E, 105(4), 045105 (2022).

75. Kang, L.L., Cui, W., Lu, X. Y., & Huang, H.*, Hydrodynamic force induced by vortex–body interactions in orderly formations of flapping tandem flexible plates. Phys. Fluids, 34(2), 021901  (2022).

74. L.L. Kang, Z. R. Peng, , H.B. Huang, X-Y Lu & W. Cui*, Active external control effect on the collective locomotion of two tandem self-propelled flapping plates. Phys. Fluids, 33(10), 101901 (2021).

73. W.J. Wang, H.B. Huang, X-Y Lu*,  Interplay of chordwise stiffness and shape on performance of self-propelled flexible flapping plate,  Phys. Fluids 33, 091904 (2021) 

72. Z.S. Lv, H.B. Huang*, Lattice Boltzmann Study of the Steady-State Relative Permeabilities in Porous Media, Adv. Appl. Math. Mech. , 13(3): 619 (2021) .

71. H.Y. Yu, X-Y Lu, H.B. Huang*, Collective locomotion of two uncoordinated undulatory self-propelled foils,  Phys. Fluids 33, 011904 (2021).

70. H.Y. Feng, H.B. Huang*, X-Y Lu, Rheology of capsule suspensions in plane Poiseuille flows, Phys. Fluids 33, 013302 (2021) 

69. W. Feng, H.B. Huang*, Fast prediction of immiscible two-phase displacements in heterogeneous porous media with convolutional neural network, Adv. Appl. Math. Mech. , 13, 140-162 (2021)

 

2020年:

68.  W.J. Wang, H.B. Huang*, X-Y Lu, Optimal chordwise stiffness distribution for self-propelled heaving flexible plates, Phys. Fluids 32, 111905 (2020)

67.  K. Liu, H.B. Huang*, X-Y Lu,  Hydrodynamic benefits of intermittent locomotion of a self-propelled flapping plate, Phys. Rev. E 102, 053106 (2020)

66. Y.F. Cui, X.T. Chang, H.B. Huang*, Experimental study of an ellipsoidal particle in tube Poiseuille flow, J. Hydrodyn.  32, 616-622 (2020)

65. Y.F. Xiong, H.B. Huang*, X-Y Lu, Numerical study of droplet impact on a flexible substrate, Phys. Rev. E 101, 053107 (2020)

64. J.J. Zhang, H.B. Huang*, X-Y Lu, Molecular Dynamics Study of Binary Nanodroplet Evaporation on a Heated Homogeneous Substrate,  Langmuir  36(13), 3439-3451 (2020)  

63. B. Liu, J.P. Tang, H.B. Huang*, and X-Y Lu, Deep learning methods for super-resolution reconstruction of turbulent flows, Phys. Fluids 32, 025105  (2020).

62. C.Y. Zhang, H.B. Huang, and X-Y Lu*, Effect of trailing-edge shape on the self-propulsive performance of heaving flexible plates, J. Fluid Mech.  887, A7 (2020).

 

2019年:

61. J-J Huang*, H.B. Huang, and J-J Xu, Energy-based modeling of micro- and nano-droplet jumping upon coalescence on superhydrophobic surfaces, Appl. Phys. Lett. 115, 141602 (2019)  supplement

60. W.J. Wang, H.B. Huang*, and X-Y Lu, Self-propelled plate in wakes behind tandem cylinders, Phys. Rev. E 100, 033114 (2019) 

59. X.T. Chang, H.B. Huang*, Y.P. Cheng, X-Y Lu, Lattice Boltzmann study of pool boiling heat transfer enhancement on structured surfaces, Int. J. Heat Mass Transfer 139, 588–599 (2019).

58. J.J. Zhang, H.B. Huang*, X-Y Lu, Pinning-Depinning Mechanism of the Contact Line during Evaporation of Nanodroplets on Heated Heterogeneous Surfaces: A Molecular Dynamics Simulation. Langmuir 35(19), 6356-6366 (2019) . 

57. X.C. Liu, H.B. Huang*, X-Y Lu, Lattice Boltzmann study of effective viscosities of porous particle suspensions. Comput. &Fluids 181, 135-142 (2019). 

 

2018年:

56. Z.R. Peng, H.B. Huang*, X-Y Lu, Collective locomotion of two self-propelled flapping plates with different propulsive capacities. Phys. Fluids 30, 111901 (2018).

55. Z.R. Peng, H.B. Huang, X-Y Lu*, Hydrodynamic schooling of multiple self-propelled flapping plates. J. Fluid Mech. 853, pp. 587-600 (2018).

54. Z.R. Peng, H.B. Huang, X-Y Lu*, Collective locomotion of two closely spaced self-propelled flapping plates. J. Fluid Mech. 849, 1068-1095 (2018).

53. W.L. Yang, H.B. Huang and W.X. Yan*, Thermal Lattice Boltzmann Simulation of Evaporating Thin Liquid Film for Vapor Generation. Appl. Sci. 8, 798 (2018).

52. B. Wei, J. Hou*, H.B. Huang, M.C. Sukop, Y.G. Liu, K. Zhou, Entry pressure for the rough capillary: Semi-analytical model, Lattice Boltzmann simulation. J. Hydrology 562, 17-29 (2018).

51. J.J. Huang*, J Wu, H.B. Huang, An alternative method to implement contact angle boundary condition and its application in hybrid lattice-Boltzmann finite-difference simulations of two-phase flows with immersed surfaces. The European Physical Journal E 41(2): 17 (2018).

50. B. Wei, H.B. Huang, J. Hou* and M.C. Sukop, Study on the meniscus-induced motion of droplets and bubbles by a three-phase Lattice Boltzmann model.  Chemical Engineering Science 176 35–49 (2018).

49.  H.B. Huang, H. Wei, X-Y Lu*, Coupling performance of tandem flexible inverted flags in a uniform flow.  J. Fluid Mech. 837, 461-476 (2018).

 

2017年:

48. X.T. Chang, H.B. Huang*, and X-Y Lu, Thermal lattice Boltzmann study of three-dimensional bubble growth in quiescent liquid. Comput. & Fluids 159, 232–242 (2017).

47. Haibo Huang*, and X-Y Lu, An ellipsoidal particle in tube Poiseuille flow. J. Fluid Mech. 822, 664-688 (2017).

46. C.Y. Zhang, H.B. Huang*, and X-Y Lu, Free locomotion of a flexible plate near the ground.   Phys. Fluids 29, 041903 (2017).  

45. H.L. Ye, H. Wei, H.B. Huang*, and X-Y Lu, Two tandem flexible loops in a viscous flow. Phys. Fluids 29, 021902 (2017).

44. X. Yang, H.B. Huang*, X-Y Lu, The motion of a neutrally buoyant ellipsoid inside square tube flows.  Adv. Appl. Math. Mech. 9(2), 233-249 (2017).

 

2016年:

43. C. Tang, H.B. Huang, P. Gao, and X-Y Lu*, Self-propulsion of a flapping flexible plate near the ground. Phys. Rev. E 94, 033113 (2016).

42. H.L. Ye, H.B. Huang*, Y. Sui, X-Y Lu, Dynamics of a nonspherical capsule in general flow.  Comput. & Fluids 134-135, 31-40 (2016).

 

2015年:

41.  X. Yang, Haibo Huang*, X.Y. Lu, Sedimentation of an oblate ellipsoid in narrow tubes. Phys. Rev. E 92, 063009 (2015).

40.  H.L. Ye, Haibo Huang*, X.Y. Lu, Numerical study on dynamic sorting of a compliant capsule with a thin shell. Comput.& Fluids 114, 110–120 (2015).

39. J.J. Huang*, H.B. Huang, and S.L. Wang, Phase-field-based simulation of axisymmetric binary fluids by using vorticity-streamfunction formulation. Progress in Comput. Fluid Dynamics 15(6), 352-371 (2015).

38. S. M. Dash*, T.S., Lee, H.B. Huang, Particle sedimentation in a constricted passage using a flexible forcing IB-LBM scheme.  Int. J. Comput. Methods 12, 1350095 (2015).

37. J.J. Huang*, H.B. Huang, X.Z. Wang, Wetting Boundary Conditions in Numerical Simulation of Binary Fluids by Using Phase-Field Method: Some Comparative Studies and New Development.   Int. J. Numer. Meth. Fluids 77: 123–158 (2015).

 36. Y. Wang, C. Shu*, H.B. Huang and C. J. Teo, Multiphase Lattice Boltzmann Flux Solver for Incompressible Multiphase Flows with Large Density Ratio. J. Comput. Phys. 280, 404–423 (2015).

 

2014年:

 35. J.J. Huang*, H.B. Huang, X.Z. Wang, Numerical study of drop motion on a surface with stepwise wettability gradient and contact angle hysteresis. Phys. Fluids 26, 062101 (2014).

 34. H.B. Huang*, X. Yang, X.Y. Lu, Sedimentation of an ellipsoidal particle in narrow tubes. Phys. Fluids 26, 053302 (2014).

 33. Haibo Huang*, J.J. Huang, X.Y. Lu, A mass-conserving axisymmetric multiphase lattice Boltzmann method and its application in simulation of bubble rising. J. Comput. Phys. 269, 386-402 (2014).

 32. J. Y. Shao, C. Shu*, H. B. Huang and Y. T. Chew, Free-energy-based lattice Boltzmann model for the simulation of multiphase flows with density contrast. Phys. Rev. E 89, 033309 (2014).

 31. Haibo Huang*, X-Y Lu, M. Krafczyk, Numerical simulation of unsteady flows in Czochralski crystal growth by lattice Boltzmann methods.  Int. J. Heat and Mass Transfer 74, 156–163 (2014).

 30. S.M. Dash*, T.S. Lee, T.T. Lim, H.B. Huang, A flexible forcing three dimensional IB-LBM scheme for flow past stationary and moving spheres. Comput.& Fluids 95, 159-170 (2014).

 29. C.L. Yu, H.B. Huang*, X-Y Lu, Lattice Boltzmann study of a vortex ring impacting spheroidal particles.  Adv. Appl. Math. Mech. 6, 461-477 (2014).

 28. Haibo Huang*, J.J. Huang, X.Y. Lu, Study of immiscible displacements in porous media using a color-gradient-based multiphase lattice Boltzmann method. Comput.& Fluids 93, 164-172 (2014).

 27. S. M. Dash*, T.S., Lee, H.B. Huang, Natural convection from an eccentric square cylinder using a novel flexible forcing IB-LBM method. Numerical Heat Transfer-Part A 65(6): 531-555 (2014).

 26. S. M. Dash*, T.S., Lee, H.B. Huang, A novel flexible forcing hybrid IB-LBM scheme to simulate flow past circular cylinder.  Int. J. Mod. Phys. C 25(1): 1340014 (2014).

 

2013年:

 25. Haibo Huang*, J.J. Huang, X.Y. Lu, M.C. Sukop,  On simulations of high-density ratio flows using color-gradient multiphase Lattice Boltzmann models. Int. J. Mod. Phys. C 24(4) 1350021 (2013).

 24. Lei Wang, Haibo Huang*, X.Y. Lu, Scheme for contact angle and its hysteresis in a multiphase lattice Boltzmann method.  Phys. Rev. E 87, 013301 (2013).

 23. J.J. Huang*, H.B. Huang, C. Shu, Y.T.  Chew and S.L. Wang, Hybrid Multiple-Relaxation-Time Lattice Boltzmann Finite-Difference method for Axisymmetric Multiphase Flows.  J. Physics A: Mathematical and Theoretical 46, 055501 (2013).

 22. Michael C. Sukop*, Haibo Huang, Pedro F. Alvarez, Evan A. Variano and Kevin J. Cunningham, Evaluation of Permeability and Non-Darcy Flow in Vuggy Macroporous Limestone Aquifer Samples with Lattice Boltzmann Methods.  Water Resources Research 49, 1–15 (2013).

 

2012年:

 21. Haibo Huang, Y.F. Wu, X.Y. Lu, Shear viscosity of dilute suspensions of ellipsoidal particles with lattice Boltzmann method. Phys. Rev. E 86, 046305 (2012).

 20. Haibo Huang*, X. Yang, M. Krafczyk, X-Y Lu, Rotation of spheroidal particles in Couette flows. J. Fluid Mech. 692, 369-394 (2012).

 

2011年:

19. Haibo Huang, M. Krafczyk, X.Y. Lu,  Forcing term in single-phase and Shan-and-Chen-type multiphase lattice Boltzmann models. Phys. Rev. E 84, 046710 (2011).

18. Z.T. Li, G.J. Li, Haibo Huang, X-Y Lu, Lattice Boltzmann study of electrohydrodynamic drop deformation with large density ratio. Int. J. Mod. Phys. C 22(7), 729-744 (2011).

17. Haibo Huang*, X-Y Lu, M.C. Sukop, Numerical study of lattice Boltzmann methods for a convection-diffusion equation coupled with Navier-Stokes equations. J. Physics A: Mathematical and Theoretical 44(5), 055001 (2011).

16. Haibo Huang*, Lei Wang, X-Y Lu, Evaluation of three lattice Boltzmann models for multiphase flows in porous media. Computers & Mathematics with Applications 61(12), 3606-3617 (2011).  

 

2010年:

15. Haibo Huang*, H.W. Zheng, X-Y Lu, C. Shu,  An evaluation of a 3D free-energy-based lattice Boltzmann model for multiphase flows with large density ratio. Int. J. Numer. Meth. Fluids 63: 1193–1207 (2010).

2009年:

14. Haibo Huang*, X-Y Lu, Relative permeabilities and coupling effects in steady-state gas-liquid flow in porous media: a lattice Boltzmann study. Phys. Fluids 21(9): 092104 (2009).

13. Haibo Huang*, X-Y Lu, Theoretical and numerical study of axisymmetric Lattice Boltzmann models. Phys. Rev. E 80: 016701 (2009).

12. Haibo Huang*, X-Y Lu, Simulation of Gas Flow in Microtubes by Lattice Boltzmann Method.  Int. J. Mod. Phys. C 20(8): 1145-1153 (2009).

11. Haibo Huang*, Z.T. Li, S.S. Liu, X-Y Lu, Shan-and-Chen-type multiphase lattice Boltzmann study of viscous coupling effects for two-phase flow in porous media. Int. J. Numer. Meth. Fluids 61(3): 341-354 (2009).

10. A. Cihan*, M.C. Sukop, J.S. Tyner, E. Perfect, and Haibo Huang, Analytical predictions and lattice Boltzmann simulations of intrinsic permeability for mass fractal porous media. Vadose Zone Journal 8(1): 187-196 (2009).

9. K.J. Cunningham*, M.C. Sukop, Haibo Huang, P.F. Alvarez, H. A. Curran, R.A. Renken, and J.F. Dixon,  Prominence of ichnologically-influenced macroporosity in the karst Biscayne aquifer: Stratiform "super-K" zones. Geological Society of America Bulletin 121(1-2): 164-180 (2009).           

 

2008年:

8. M. C. Sukop, Haibo Huang, C.L. Lin, M.D. Deo, K. Oh, and J.D. Miller, Distribution of multiphase fluids in porous media: Comparison between lattice Boltzmann modeling and micro-X-ray tomography. Phys. Rev. E 77: 026710 (2008).

 

2007年:

7. Haibo Huang,  D.T. Throne, M.G. Schaap, M.C. Sukop, Proposed approximation for contact angles in Shan-and-Chen-type multicomponent multiphase lattice Boltzmann models. Phys. Rev. E 76: 066701 (2007).

6. Haibo Huang*, T.S. Lee, C. Shu, Hybrid lattice-Boltzmann finite-difference simulation of axisymmetric swirling and rotating flows. Int. J. Numer. Meth. Fluids 53(11): 1707-1726 (2007). 

5. Haibo Huang*, T.S. Lee, C. Shu, Lattice Boltzmann Simulation Gas Slip Flow in Long Microtubes. Int. J. Numer. Meth. Heat & Fluid Flow 17(6): 587-607 (2007).

 

2006年:

4. Haibo Huang*, T.S. Lee, C. Shu, Thermal curved boundary treatment for the thermal lattice Boltzmann equation. Int. J. Mod. Phys. C. 17(5): 631-643 (2006).

3. T.S. Lee*, Haibo Huang*, C. Shu, An axisymmetric incompressible lattice Boltzmann model for pipe flow. Int. J. Mod. Phys. C. 17(5): 645-661 (2006).

2. Haibo Huang, T.S. Lee, C. Shu, Lattice-BGK simulation of steady flow through vascular tubes with double constrictions. Int. J. Numer. Meth. Heat & Fluid Flow 16(2): 185-203 (2006).

 

2005年:

1. T.S. Lee, Haibo Huang*, C. Shu, An axisymmetric incompressible Lattice-BGK model for simulation of the pulsatile flow in a circular pipe. Int. J. Numer. Meth. Fluids 49(1): 99-116 (2005).