tailorcrete:examples:v-funnel
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tailorcrete:examples:v-funnel [2012/07/24 14:48] – kolarfil | tailorcrete:examples:v-funnel [2012/07/26 11:33] – kolarfil | ||
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=== Test setup and Geometry === | === Test setup and Geometry === | ||
- | V-funnel problem is one of the first problem, that was modeled. It is focused on boundary condition influence. In it's easiest form is modeled in 2D. The geometry is shown at figure below. | + | V-funnel problem is one of the first problem, that was modeled. It is focused on boundary condition influence. In it's easiest form is modeled in 2D. The geometry is shown at figure below. |
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+ | === Computational Model === | ||
+ | Scheme of two-dimensional computational model is shown on the picture below. The whole problem is modeled as a two-phase flow problem. Since the fluids (concrete and air) are immiscible, problem can be resolved finding position of the interface between both fluids in each time step. This is done using Level Set Method [2]. On the picture is also specification of boundary condition. The whole domain is decomposed into two regions. Initially, in the first region is air modeled as a newtonian fluid. In the second region is concrete, considered as a Bingham fluid. Parameters are therefore | ||
+ | *yield stress 60 Pa | ||
+ | *plastic viscosity 20 Pa*s. | ||
+ | So called "Slip with friction" | ||
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On the next picture is mesh used for simulation. It is devided into two parts. Lower part is finer to improve accuracy of the flow near the neck. The mesh contains 2907 nodes and 5567 elements. | On the next picture is mesh used for simulation. It is devided into two parts. Lower part is finer to improve accuracy of the flow near the neck. The mesh contains 2907 nodes and 5567 elements. | ||
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- | The link below contains input file of V-funnel simulation for OOFEM program. It is a text file containing specifications | + | The link below contains input file of V-funnel simulation for OOFEM program. It is a text file containing specifications about geometry (mesh), physics (constitutive model) and numerical solver. |
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Description of input file can be found here: [[tailorcrete: | Description of input file can be found here: [[tailorcrete: | ||
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+ | === Results === | ||
On the video below, motion of concrete-air interface is shown. The characteristic " | On the video below, motion of concrete-air interface is shown. The characteristic " | ||
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tailorcrete/examples/v-funnel.txt · Last modified: 2012/09/13 09:14 by bp