Team:SDU-Denmark/project-m

From 2010.igem.org

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(5. A 2-D model of the system)
(6. A stationary 2-D model)
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The stationary model, doesn't offer much when it comes to dynamics and interesting behavior, which shouldn't surprise anyone. It does however offer us the opportunity to investigate at which angle the flow in the direction of the tube is highest, which could be helpful when planning how to optimize the use of bacteria as a source of flow.
The stationary model, doesn't offer much when it comes to dynamics and interesting behavior, which shouldn't surprise anyone. It does however offer us the opportunity to investigate at which angle the flow in the direction of the tube is highest, which could be helpful when planning how to optimize the use of bacteria as a source of flow.
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=== 7. Model expansions ===
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====3-D====
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All programs we have written have been created for easy transfer from the 2-D model to a 3-D model. The 3-D model is pretty much done but we have not had time to check it for errors and to gain some results.
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====A flagella row on the other wall====
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In our model we settled for placing bacteria on one wall. During real-life application, flagella would most likely be placed on both walls. This is not something we have tried to implement in our model, thought to do so should just be a matter of creating an extra grid an adapting the existing model a bit.
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==== A better double-wall approximation ====
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The double-wall approximation we made is a very rough approximation based on what you do when you have a single wall. The model could be improved alot by making a better approximation, though aside from simply creating more mirror-pints, we have not investigated how this could be done.
=== Litterature  ===
=== Litterature  ===

Revision as of 18:52, 16 October 2010