Chromodynamic Lattice Boltzmann Method for the Simulation of Drops,Erythrocytes,and other Vesicles  

作　　者：J.Spendlove X.Xu T.Schenkel J.P.Gunn I.Halliday 

机构地区：[1]Department of Engineering and Mathematics,Sheffield Hallam University,Howard Street,S11WB,UK [2]Materials&Engineering Research Institute,Sheffield Hallam University,Howard Street,S11WB,UK [3]Department of Infection,Immunity and Cardiovascular Disease,The Medical School,Beech Hill Road,Sheffield,S102RX,UK

出　　处：《Communications in Computational Physics》2023年第1期283-309,共27页计算物理通讯（英文）

摘　　要：Recently,we have validated a three-dimensional,single framework multicomponent lattice Boltzmann method,modified to generate vesicles(rather than drops)[“Three-dimensional single framework multicomponent lattice Boltzmann equation method for vesicle hydrodynamics,”Phys.Fluids 33,077110(2021)].This approach implements an immersed boundary force distribution,characterised by bending rigidity,surface tension,preferred curvature and conserved membrane area,in which work we successfully validated isolated vesicle flows against other methodologies and experiment.Like most immersed boundary algorithms,our method relies on numerical computation of high-order spatial derivatives and an intricate body force density.The next step is to verify that it has sufficient numerical stability to address the anticipated application of high volume fraction flows of highly deformable objects in intimate interaction.It is this in silico verification-of both the class of fluid object attainable and the stability of the later in strong,straining and shearing flows which is at issue,here.We extend our method to simulate multiple variously deflated vesicles and multiple liquid droplets still within a single framework,from which our fluid objects emerge as particular parameterisations.We present data from simulations containing up to four vesicles(five immiscible fluid species),which threshold verifies that simulations containing unlimited fluid objects are possible[“Modeling the flow of dense suspensions of deformable particles in three dimensions,”Phys.Rev.E 75,066707(2007)].These data also assure the ability of our immersed boundary forcing to preserve the character and integrity of fluid objects in interactions characterised by large local velocity gradients(intimate squeezing,shearing and elongational straining).Throughout,we take interfacial or membrane area,A,as a proxy for stability and physical veracity.

关 键 词：Lattice Boltzmann membranes vesicles 

分 类 号：O17[理学—数学]