Model:Pllcart3d: Difference between revisions
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{{Model identity | {{Model identity | ||
|Model type=Single | |Model type=Single | ||
|Categories=Hydrology, Terrestrial | |||
|Spatial dimensions=3D | |Spatial dimensions=3D | ||
|One-line model description=3D numerical simulation of confined miscible flows | |One-line model description=3D numerical simulation of confined miscible flows | ||
|Extended model description=Nonlinear three dimensional simulations of miscible Hele-Shaw flows using DNS of incompressible Navier-Stokes and transport equations. | |Extended model description=Nonlinear three dimensional simulations of miscible Hele-Shaw flows using DNS of incompressible Navier-Stokes and transport equations. | ||
}} | }} | ||
{{Model technical information | {{Model technical information | ||
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Flags: resume simulation, add wave perturbation. | Flags: resume simulation, add wave perturbation. | ||
|Input format=ASCII | |Input format=ASCII | ||
|Describe output parameters=Velocities and concentration fields of the particles are stored to binary files at given time steps. | |Describe output parameters=Velocities and concentration fields of the particles are stored to binary files at given time steps. | ||
|Output format=Binary | |Output format=Binary | ||
|Pre-processing software needed?=No | |Pre-processing software needed?=No | ||
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}} | }} | ||
{{Process description model | {{Process description model | ||
|Describe processes represented by the model=The code models the evolution of a diffusive interface and the instabilities that arises when a less viscous fluid pushes a more viscous one in a confined rectangular geometry. | |Describe processes represented by the model=The code models the evolution of a diffusive interface and the instabilities that arises when a less viscous fluid pushes a more viscous one in a confined rectangular geometry. | ||
|Describe key physical parameters and equations=Incompressible Navier-Stokes equations coupled to a convective-diffusive equation to describe the concentration field of the particles. | |Describe key physical parameters and equations=Incompressible Navier-Stokes equations coupled to a convective-diffusive equation to describe the concentration field of the particles. | ||
|Describe length scale and resolution constraints=In its current state, the code is restricted to low Reynolds number and Peclet number of order 1000. | |Describe length scale and resolution constraints=In its current state, the code is restricted to low Reynolds number and Peclet number of order 1000. | ||
}} | }} | ||
{{Model testing}} | {{Model testing}} |
Revision as of 08:30, 22 September 2009
Contact
Name | Rafael Oliveira |
Type of contact | Model developer |
Institute / Organization | University of California, Santa Barbara |
Postal address 1 | Engr II Bldg, Room 2301 |
Postal address 2 | Mechanical Engineering Department, UC Santa Barbara |
Town / City | Santa Barbara |
Postal code | 93106 |
State | California |
Country | USA"USA" is not in the list (Afghanistan, Albania, Algeria, Andorra, Angola, Antigua and Barbuda, Argentina, Armenia, Australia, Austria, ...) of allowed values for the "Country" property. |
Email address | rafael@engr.ucsb.edu |
Phone | 805-893-6107 |
Fax |
Pllcart3d
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