Estimation of the dissipation rate of turbulent kinetic energy: A review G Wang, F Yang, K Wu, Y Ma, C Peng, T Liu, LP Wang Chemical Engineering Science 229, 116133, 2021 | 97 | 2021 |
Implementation issues and benchmarking of lattice Boltzmann method for moving rigid particle simulations in a viscous flow C Peng, Y Teng, B Hwang, Z Guo, LP Wang Computers & Mathematics with Applications 72 (2), 349-374, 2016 | 97 | 2016 |
Lattice Boltzmann simulation of particle-laden turbulent channel flow LP Wang, C Peng, Z Guo, Z Yu Computers & Fluids 124, 226-236, 2016 | 89 | 2016 |
A direct numerical investigation of two-way interactions in a particle-laden turbulent channel flow C Peng, OM Ayala, LP Wang Journal of Fluid Mechanics 875, 1096-1144, 2019 | 57 | 2019 |
Direct numerical simulation of turbulent pipe flow using the lattice Boltzmann method C Peng, N Geneva, Z Guo, LP Wang Journal of Computational Physics 357, 16-42, 2018 | 57 | 2018 |
Flow modulation by finite-size neutrally buoyant particles in a turbulent channel flow LP Wang, C Peng, Z Guo, Z Yu Journal of Fluids Engineering 138 (4), 041306, 2016 | 53 | 2016 |
A comparative study of immersed boundary method and interpolated bounce-back scheme for no-slip boundary treatment in the lattice Boltzmann method: Part I, laminar flows C Peng, OM Ayala, LP Wang Computers & Fluids 192, 104233, 2019 | 45 | 2019 |
Assessment of numerical methods for fully resolved simulations of particle-laden turbulent flows JCB de Motta, P Costa, JJ Derksen, C Peng, LP Wang, WP Breugem, ... Computers & Fluids 179, 1-14, 2019 | 36 | 2019 |
LBM study of aggregation of monosized spherical particles in homogeneous isotropic turbulence G Wang, D Wan, C Peng, K Liu, LP Wang Chemical Engineering Science 201, 201-211, 2019 | 26 | 2019 |
Designing correct fluid hydrodynamics on a rectangular grid using MRT lattice Boltzmann approach Y Zong, C Peng, Z Guo, LP Wang Computers & Mathematics with Applications 72 (2), 288-310, 2016 | 26 | 2016 |
A scalable interface-resolved simulation of particle-laden flow using the lattice Boltzmann method N Geneva, C Peng, X Li, LP Wang Parallel Computing 67, 20-37, 2017 | 23 | 2017 |
Direct numerical simulations of turbulent pipe flow laden with finite-size neutrally buoyant particles at low flow Reynolds number C Peng, LP Wang Acta Mechanica 230, 517-539, 2019 | 22 | 2019 |
A hydrodynamically-consistent MRT lattice Boltzmann model on a 2D rectangular grid C Peng, H Min, Z Guo, LP Wang Journal of Computational Physics 326, 893-912, 2016 | 21 | 2016 |
A thermodynamically consistent pseudo-potential lattice Boltzmann model for multi-component, multiphase, partially miscible mixtures C Peng, LF Ayala, OM Ayala Journal of Computational Physics 429, 110018, 2021 | 20 | 2021 |
A lattice-Boltzmann scheme of the Navier–Stokes equation on a three-dimensional cuboid lattice LP Wang, H Min, C Peng, N Geneva, Z Guo Computers & Mathematics with Applications 78 (4), 1053-1075, 2019 | 19 | 2019 |
Isotropy and spurious currents in pseudo-potential multiphase lattice Boltzmann models C Peng, LF Ayala, LP Wang, OM Ayala Computers & Fluids, 104257, 2019 | 19 | 2019 |
Improving lattice Boltzmann simulation of moving particles in a viscous flow using local grid refinement S Chen, C Peng, Y Teng, LP Wang, K Zhang Computers & Fluids 136, 228-246, 2016 | 16 | 2016 |
A lattice-BGK model for the Navier–Stokes equations based on a rectangular grid C Peng, Z Guo, LP Wang Computers & Mathematics with Applications 78 (4), 1076-1094, 2019 | 15 | 2019 |
Study of turbulence modulation by finite-size solid particles with the lattice Boltzmann method C Peng University of Delaware, 2018 | 14 | 2018 |
Lattice Boltzmann model capable of mesoscopic vorticity computation C Peng, Z Guo, LP Wang Physical Review E 96 (5), 053304, 2017 | 14 | 2017 |