文件名称:SPHYSICS_3D_v1.0.003
- 所属分类:
- 数学计算/工程计算
- 资源属性:
- [Windows] [Visual C] [源码]
- 上传时间:
- 2012-11-26
- 文件大小:
- 1.09mb
- 下载次数:
- 0次
- 提 供 者:
- 謝*
- 相关连接:
- 无
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SPH 3D
Smoothed-particle hydrodynamics (SPH) is a computational method used for simulating fluid flows. It has been used in many fields of research, including astrophysics, ballistics, volcanology, and oceanography. It is a mesh-free Lagrangian method (where the coordinates move with the fluid), and the resolution of the method can easily be adjusted with respect to variables such as the density.-Smoothed-particle hydrodynamics (SPH) is a computational method used for simulating fluid flows. It has been used in many fields of research, including astrophysics, ballistics, volcanology, and oceanography. It is a mesh-free Lagrangian method (where the coordinates move with the fluid), and the resolution of the method can easily be adjusted with respect to variables such as the density.
相关搜索: SPH
mesh
fluid
3d
SPH
SPhysics
fluid
computational
fluid
mesh
free
Smoothed-particle hydrodynamics (SPH) is a computational method used for simulating fluid flows. It has been used in many fields of research, including astrophysics, ballistics, volcanology, and oceanography. It is a mesh-free Lagrangian method (where the coordinates move with the fluid), and the resolution of the method can easily be adjusted with respect to variables such as the density.-Smoothed-particle hydrodynamics (SPH) is a computational method used for simulating fluid flows. It has been used in many fields of research, including astrophysics, ballistics, volcanology, and oceanography. It is a mesh-free Lagrangian method (where the coordinates move with the fluid), and the resolution of the method can easily be adjusted with respect to variables such as the density.
相关搜索: SPH
mesh
fluid
3d
SPH
SPhysics
fluid
computational
fluid
mesh
free
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下载文件列表
SPHYSICS_3D_v1.0.003
....................\source
....................\......\SPHYSICSgen3D
....................\......\.............\common.gen3D
....................\......\.............\SPHYSICSgen_3D.dep
....................\......\.............\SPHYSICSgen_3D.plg
....................\......\.............\SPHYSICSgen_cvf.mak
....................\......\.............\SPHYSICSgen_gfortran.mak
....................\......\.............\SPHYSICSgen_ifort.mak
....................\......\.............\SPHYSICSgen_3D.001
....................\......\.............\SPHYSICSgen_3D.dsp
....................\......\.............\SPHYSICSgen_3D.dsw
....................\......\.............\SPHYSICSgen_3D.f
....................\......\.............\SPHYSICSgen_3D.opt
....................\......\SPHYSICS3D
....................\......\..........\ac_3D.f
....................\......\..........\celij_BC_Dalrymple_3D.f
....................\......\..........\celij_BC_Monaghan_3D.f
....................\......\..........\check_limits_3D.f
....................\......\..........\common.3D
....................\......\..........\correct_3D.f
....................\......\..........\correct_SPS_3D.f
....................\......\..........\divide_3D.f
....................\......\..........\energy_3D.f
....................\......\..........\getdata_3D.f
....................\......\..........\ini_divide_3D.f
....................\......\..........\keep_list_3D.f
....................\......\..........\kernel_cubic_3D.f
....................\......\..........\kernel_gaussian_3D.f
....................\......\..........\kernel_quadratic_3D.f
....................\......\..........\kernel_wendland5_3D.f
....................\......\..........\monaghanBC_3D.f
....................\......\..........\movingObjects_3D.f
....................\......\..........\movingPaddle_3D.f
....................\......\..........\movingWedge_3D.f
....................\......\..........\poute_3D.f
....................\......\..........\recover_list_3D.f
....................\......\..........\relocate_3D.f
....................\......\..........\self_BC_Dalrymple_3D.f
....................\......\..........\self_BC_Monaghan_3D.f
....................\......\..........\shepard_3D.f
....................\......\..........\SPHYSICS.mak
....................\......\..........\SPHYSICS_3D.f
....................\......\..........\SPHYSICS_3D.f~
....................\......\..........\step_predictor_corrector_3D.f
....................\......\..........\step_verlet_3D.f
....................\......\..........\updateNormals_3D.f
....................\......\..........\variable_time_step_3D.f
....................\......\..........\viscosity_artificial_3D.f
....................\......\..........\viscosity_artificial_3D.f~
....................\......\..........\viscosity_laminar+SPS_3D.f
....................\......\..........\viscosity_laminar_3D.f
....................\......\..........\viscosity_laminar_3D.f~
....................\run_directory
....................\.............\Case5
....................\.............\.....\Case5.txt
....................\.............\.....\Case5_cvf.bat
....................\.............\.....\Case5_linux.bat
....................\.............\Case4
....................\.............\.....\Benchmark_4_initialPositions.dat
....................\.............\.....\Benchmark_4_run30.txt
....................\.............\.....\Case4.txt
....................\.............\.....\Case4_cvf.bat
....................\.............\.....\Case4_linux.bat
....................\.............\Case3
....................\.............\.....\Case3_cvf.bat
....................\.............\.....\Case3_linux.bat
....................\.............\.....\Case3.txt
....................\Post-Processing
....................\...............\matlabRoutines
....................\...............\..............\MovingObjects2D_View.m
....................\...............\..............\MovingObjects3D.m
....................\...............\..............\NoMovingObjects2D_View.m
....................\.
....................\source
....................\......\SPHYSICSgen3D
....................\......\.............\common.gen3D
....................\......\.............\SPHYSICSgen_3D.dep
....................\......\.............\SPHYSICSgen_3D.plg
....................\......\.............\SPHYSICSgen_cvf.mak
....................\......\.............\SPHYSICSgen_gfortran.mak
....................\......\.............\SPHYSICSgen_ifort.mak
....................\......\.............\SPHYSICSgen_3D.001
....................\......\.............\SPHYSICSgen_3D.dsp
....................\......\.............\SPHYSICSgen_3D.dsw
....................\......\.............\SPHYSICSgen_3D.f
....................\......\.............\SPHYSICSgen_3D.opt
....................\......\SPHYSICS3D
....................\......\..........\ac_3D.f
....................\......\..........\celij_BC_Dalrymple_3D.f
....................\......\..........\celij_BC_Monaghan_3D.f
....................\......\..........\check_limits_3D.f
....................\......\..........\common.3D
....................\......\..........\correct_3D.f
....................\......\..........\correct_SPS_3D.f
....................\......\..........\divide_3D.f
....................\......\..........\energy_3D.f
....................\......\..........\getdata_3D.f
....................\......\..........\ini_divide_3D.f
....................\......\..........\keep_list_3D.f
....................\......\..........\kernel_cubic_3D.f
....................\......\..........\kernel_gaussian_3D.f
....................\......\..........\kernel_quadratic_3D.f
....................\......\..........\kernel_wendland5_3D.f
....................\......\..........\monaghanBC_3D.f
....................\......\..........\movingObjects_3D.f
....................\......\..........\movingPaddle_3D.f
....................\......\..........\movingWedge_3D.f
....................\......\..........\poute_3D.f
....................\......\..........\recover_list_3D.f
....................\......\..........\relocate_3D.f
....................\......\..........\self_BC_Dalrymple_3D.f
....................\......\..........\self_BC_Monaghan_3D.f
....................\......\..........\shepard_3D.f
....................\......\..........\SPHYSICS.mak
....................\......\..........\SPHYSICS_3D.f
....................\......\..........\SPHYSICS_3D.f~
....................\......\..........\step_predictor_corrector_3D.f
....................\......\..........\step_verlet_3D.f
....................\......\..........\updateNormals_3D.f
....................\......\..........\variable_time_step_3D.f
....................\......\..........\viscosity_artificial_3D.f
....................\......\..........\viscosity_artificial_3D.f~
....................\......\..........\viscosity_laminar+SPS_3D.f
....................\......\..........\viscosity_laminar_3D.f
....................\......\..........\viscosity_laminar_3D.f~
....................\run_directory
....................\.............\Case5
....................\.............\.....\Case5.txt
....................\.............\.....\Case5_cvf.bat
....................\.............\.....\Case5_linux.bat
....................\.............\Case4
....................\.............\.....\Benchmark_4_initialPositions.dat
....................\.............\.....\Benchmark_4_run30.txt
....................\.............\.....\Case4.txt
....................\.............\.....\Case4_cvf.bat
....................\.............\.....\Case4_linux.bat
....................\.............\Case3
....................\.............\.....\Case3_cvf.bat
....................\.............\.....\Case3_linux.bat
....................\.............\.....\Case3.txt
....................\Post-Processing
....................\...............\matlabRoutines
....................\...............\..............\MovingObjects2D_View.m
....................\...............\..............\MovingObjects3D.m
....................\...............\..............\NoMovingObjects2D_View.m
....................\.