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Spinning cylinder in viscous liquid - a serious doubt |
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January 6, 2010, 02:21 |
Spinning cylinder in viscous liquid - a serious doubt
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#1 |
Member
s Kumar
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I have made a cylinder rotating about its axis in a highly viscous liquid (to mimic low reynolds no). according to theory,the cylinder has to move axially forward but in my CFD simulation it goes front and then come back... what could be the reason? I made a mesh as in the GMO sphere example and have given 6 DOF and prescribed rotational motion along cylindrical axis and coupled translational motion along cylndrical axis. other motions i made as prescribed and given 0. I have enabled GMO model and viscosity model. Is there anything wrong with this set up?
Plz some one help me... |
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January 6, 2010, 14:52 |
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#2 | |
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michael barkhudarov
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January 11, 2010, 01:20 |
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#3 |
Member
s Kumar
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Thanks a lot. I checked the theory, due to high viscous force there is accumulated azimuthal velocity driving rod in forward direction given by (pls see the attached picture)
Any idea why it is not keep going? Should I give any specific meshing? As I am not welversed in meshing, can you recommend what structure of mesh will be appropriate for my problem (cartesian/cylindrical or fit to geometry/automesh)? thanks in advance |
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January 12, 2010, 15:20 |
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#4 |
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Jim Higgs
Join Date: Jan 2010
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The last time I tried to use cylindrical coordinates, the 0 degree boundary and the 360 degree boundary did not allow flow to pass through from one to the other. I ended up using Cartesian.
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January 20, 2010, 11:33 |
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#5 |
Senior Member
michael barkhudarov
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The opposite boundaries must be of type periodic for the communication between them to occur.
Regarding meshing the GMO, there is nothing special required for the mesh. Just make sure it resolves the geometry well and leaves room around it for the flow to develop. If the mesh is uniform, so much the better. Still not sure what the problem looks like. Can you send an image or a drawing? |
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January 21, 2010, 12:56 |
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#6 |
Member
s Kumar
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see the attached figure:
Cylinder of radius 20nm rotating with its axis around 600 rad/s... |
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January 22, 2010, 09:20 |
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#7 |
Member
private
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I don't understand the physical setup.
Why should the cylinder move? Is it mounted on springs or some sort of arrangement that lets it slide in the xy plane? The diagram shows nothing about the suspension of the rotating cylinder. The data appear to show an oscillation about a steady state solution. Is it possible that vortices are forming in the corners of the square experimental tank? I'm suggesting circulating in the corners about a vertical axis near each corner. It could be helpful if you described the physical setup fully. As it stands, it appears that you're comparing two-dimension analysis with three-dimensional data. |
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January 22, 2010, 11:43 |
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#8 |
Member
s Kumar
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Hi
It is actually a nanoscale motor. which drives the cylinder through spinning. when it spins, under low reynolds number environment, due to viscous force it goes forward like a screw. so no spring or any other set up. it is just a cylinder spinning independently. |
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January 28, 2010, 11:52 |
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#9 |
Senior Member
michael barkhudarov
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Could you please send me your prepin file?
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January 30, 2010, 13:49 |
thanks for your insights
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#10 |
Member
s Kumar
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Please see the attached prepin file.
Thanks for your support. Please remember that i am a beginner and tried to implement what i learnt through gmo sphere tutorial. |
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January 31, 2010, 23:37 |
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#11 |
Senior Member
michael barkhudarov
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Thanks for the file. Is the equation for the angular velocity from their book on Hydrodynamics? What section of it and page no?
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February 1, 2010, 02:51 |
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#12 |
Member
s Kumar
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Thanks again for supporting me.
The equation is given in page 56 of FLUID MECHANICS Second Edition by L. D. LANDAU and E. M. LIFSHITZ I have also attached those pages as pictures. Please have a look on a research paper which explains this in detail: Mesoscopic Modeling of Bacterial Flagellar Microhydrodynamics (available at http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1630491/) I hope this two information will be helpful to understand the problem thanks |
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February 1, 2010, 09:17 |
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#13 |
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michael barkhudarov
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thanks Kumar,
this will help me to understand the problem. give me a few days to look at it. |
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February 1, 2010, 22:42 |
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#14 |
Senior Member
michael barkhudarov
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Hi,
The solution in the Landau book is for the flow of fluid between two rotating cylinders. This kind of motion does not create any propulsion for the cylinders themselves. The paper, on the other hand talks about a rotating helix, in which case there may be propulsion in the axial direction since the helix acts like a screw. What you need to start with is create a helix in a CAD tool and import it into FLOW-3D as an STl file. What school do you study at? |
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February 1, 2010, 23:29 |
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#15 |
Member
s Kumar
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Thanks for your information.
I have done CFD simulation according to an experiment explained in the paper (please have a look on equation 4, and graph: figure-1) :http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1630491/ Here they have showed that there exist a net azimuthal velocity using experimental set-up. I just tried the same in the Flow3d, though I could already observe the same in helix, i could not do for cylinder as explained by them. By the way I am an Indian physics teacher, teaching in Oman, but still a student in CFD and bacterial motion. Thanks for your continuous support. |
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February 2, 2010, 09:17 |
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#16 | |
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michael barkhudarov
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February 2, 2010, 20:44 |
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#17 |
Member
s Kumar
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Ok, sorry I understand. I assumed that the graph (figure -1) shows the velocity, of the cylinder's front surface, so cylinder could move forward in a highly viscous environment (low reynolds number).
How will I get data from my simulation for V versus r as in figure -1? Thanks again |
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February 10, 2010, 09:40 |
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#18 | |
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michael barkhudarov
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February 19, 2010, 08:41 |
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#19 |
Member
s Kumar
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Is there anyway to measure the force produced by a GMO object in flow3D?
Thanks |
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