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Rotational fluid motion in a closed system with a diluted species
Posted 24.04.2017, 02:03 GMT-4 2 Replies
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Hello all,
I am convinced that this is a simple problem, but I am having difficulty in setting it up. Simply put, I have a cylinder, which has no inlets or outlets, and within it there needs to be fluid motion, which to start with is rotating at 30 RPM. Alongside this fluid motion, there is transport of diluted species physics in place, which will be affected by this fluid flow and hence, MUST BE COUPLED. I was wondering if anybody could provide a hint as to how I can achieve this?
I have fiddled around with the mixer module which includes options for inputting RPM, but I do not think this module can be coupled with my diluted species physics. That brings me to either laminar flow physics or turbulent mixing within the transport of diluted species physics, both of which ask for a velocity field, which I cannot seem to get right. Any tips would be GREATLY appreciated, I am about to tear out my hair!
David
I am convinced that this is a simple problem, but I am having difficulty in setting it up. Simply put, I have a cylinder, which has no inlets or outlets, and within it there needs to be fluid motion, which to start with is rotating at 30 RPM. Alongside this fluid motion, there is transport of diluted species physics in place, which will be affected by this fluid flow and hence, MUST BE COUPLED. I was wondering if anybody could provide a hint as to how I can achieve this?
I have fiddled around with the mixer module which includes options for inputting RPM, but I do not think this module can be coupled with my diluted species physics. That brings me to either laminar flow physics or turbulent mixing within the transport of diluted species physics, both of which ask for a velocity field, which I cannot seem to get right. Any tips would be GREATLY appreciated, I am about to tear out my hair!
David
2 Replies Last Post 24.04.2017, 08:27 GMT-4