Comsol Multiphysics Rapidshare Er
There is limited option for non-intrusive flow measurement of liquid metals at high temperature. Liquid metal flowing in a conduit along with the transverse magnetic field induces emf in the liquid metal. The emf developed; which has linear dependency on flow velocity; can be used for flow velocity estimation. Game theory matlab code programs.
Comsol Multiphysics Rapidshare Er 1
In case of conducting conduit the emf can be measured at the conduit wall. The main hindrance with this technique is the calibration. The induced emf depends upon the thermo-physical parameters like electrical conductivity, viscosity of the liquid metal as well as the electrical conductivity of the conduit wall. The flow meter calibrated with a fluid at some temperature will not behave in the same way with other liquid metal or at another temperature. Usage of flow meter with different fluid necessitates calibration with that fluid at required temperature; which increase the cost of usage.
In this paper, an effort has been made, using numerical methods, to eliminate the repeated calibration work for different fluid at different temperature. Physics interfaces from CFD and AC/DC Module in COMSOL Multiphysics have been coupled to imitate the actual scenario. At first, the numerical code has been benchmarked to simulate the calibration data for known fluid at a given temperature. After successful benchmarking, the same code has been be used to calibrate the MHD flowmeter for other liquid metal at different working temperature.
Are you using the 2D axi-symmetric formalism? If so, your working variables are already in cylindrical form. For example, in the electromagnetic wave RF module, you have: emw.Er, emw.Ephi, and emw.Ez2. If you are using the 2D cartesian formalism (where z extends infinitely), then you can always extract polar coordinates from the x and y ones via the customary transformations.
You can write the expressions in Comsol Multiphysics; you don't have to export the data. Note: To get the correct quadrant for the phi angle, consider using the atan2 function. Are you using the 2D axi-symmetric formalism?
Comsol Multiphysics Rapidshare Er Full
If so, your working variables are already in cylindrical form. For example, in the electromagnetic wave RF module, you have: emw.Er, emw.Ephi, and emw.Ez2. If you are using the 2D cartesian formalism (where z extends infinitely), then you can always extract polar coordinates from the x and y ones via the customary transformations. You can write the expressions in Comsol Multiphysics; you don't have to export the data. Note: To get the correct quadrant for the phi angle, consider using the atan2 function.