atmosphericModels fvMeshDistributors MomentumTransportModels regionModels thermophysicalModels combustionModels fvMeshMovers multiphaseModels renumber ThermophysicalTransportModels conversion fvMeshStitchers ODE rigidBodyDynamics triSurface dummyThirdParty fvMeshTopoChangers OpenFOAM rigidBodyMeshMotion twoPhaseModels dynam...
basicReactingMultiphaseParcel basicReactingParcel basicSprayCloud basicSprayParcel basicThermoCloud basicThermoParcel boundaryRadiationPropertiesPatch boundedBackwardFaDdtScheme calculatedFaPatchFields CentredFitSnGradScheme CHFSubCoolModel coalCloud coalParcel codedSource compositeBody constant constantSurfaceTensionCoefficie...
basicReactingMultiphaseParcel basicReactingParcel basicSprayCloud basicSprayParcel basicThermoCloud basicThermoParcel boundaryRadiationPropertiesPatch boundedBackwardFaDdtScheme calculatedFaPatchFields CentredFitSnGradScheme CHFSubCoolModel coalCloud coalParcel codedSource compositeBody constant constrainHbyA constrainPressu...
6.?radiationModel (辐射模型控制参数) ???7. solution? (求解方程控制参数) ???8. SRFModel (SRF模型控制参数) ???9. tolerances (方程残差控制) ???10.?transportModel (输运模型参数)见下例: ??? IOdictionary transportProperties //在transportProperties字典中读入参数 ??? ( ??? IOobject ???
在OpenFOAM中,非预混燃烧的仿真通常使用reactingMultiphaseFoam或 laminarReactingMultiphaseFoam等求解器。这些求解器能够处理多组分、多相 流的燃烧问题,特别适用于非预混燃烧的仿真。 3.2.1案例文件结构 一个典型的非预混燃烧案例在OpenFOAM中的文件结构包括:-0:初始条 件和边界条件的设置。-system:包含控制参数、网...
的溃坝算例是使用一个相当粗糙的网格来生成的。我们现在希望增加网格数量并重新运 行算例。新的算例如果采用单核计算会运行好几个小时,因此,如果用户能够使用多核运算,这样 会大大减少运行时间。 介绍OpenFOAM 的并行处理能力。用户首先应 一份 damBreak 算例,执行以下命令: cd $FOAM_RUN/tutorials/multiphase...
openfoam自带算例示例 OpenFOAM 自带算例(部分)示例 广州超算2015/1/30 # 摩托车 求解器:simpleFoam 使用SIMPLE算法稳态求解不可压缩湍流 算例:tutorials/incompressible/simpleFoam/motorBike # 法兰冷热交接面
--->Multiphase flow --->Direct numerical simulation --->Combustion --->Heat transfer and buoyancy-driven flows --->Particle-tracking flows --->Molecular dynamics methods --->Direct simulation Monte Carlo methods --->Electromagnetics --->Stress ...
OpenFOAM中的标准求解器 Standard Solvers An extensive set of OpenFOAM solvers has evolved (and is forever growing) that are available to users. OpenFOAM is used mainly for CFD but has found use in other areas such as stress analysis, electromagnetics and finance because it is fundamentally a ...
W() : basicSpecieMixture , basicThermo , heThermo< BasicThermo, MixtureType > , liquidMixtureProperties , multiphaseMixtureThermo , NonInertialFrameForce< CloudType > , phaseSystem w() : quaternion W() : constantFilmThermo , filmThermoModel , liquidFilmThermo w() : vibrationShellModel W...