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Modeling of magnetohydrodynamic phenomena
Mačák, Martin ; Maxa, Jiří (referee) ; Vyroubal, Petr (advisor)
Theoretical part of this thesis is dedicated to the theoretical basis of electric conduction phenomena in fluids and method of calculation of magnetohydrodynamic phenomena. In the experimental part, computational modules have been developed to complement and augment the use of commercial simulation programs for simulation in the field of magnetohydrodynamics. On practical examples of mass spectrometer simulation, Einzel lens, electron movement and electric circuit breaker, the functionality of the computational models and the correctness of the obtained results were documented. Created computational modules can be used to design and optimize products using magnetohydrodynamic phenomena.
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Numerical Analysis Of A Mass Separator
Mačák, Martin
The presented work investigates numerical approach to the movement of charged particles. Custom model describing electromagnetic forces on particles was created and implemented into ANSYS FLUENT. This model was then used for a simulation of a simplified version of a mass separator. Results were then compared to the theoretical results which were closely comparable.
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Modeling of magnetohydrodynamic phenomena
Mačák, Martin ; Maxa, Jiří (referee) ; Vyroubal, Petr (advisor)
Theoretical part of this thesis is dedicated to the theoretical basis of electric conduction phenomena in fluids and method of calculation of magnetohydrodynamic phenomena. In the experimental part, computational modules have been developed to complement and augment the use of commercial simulation programs for simulation in the field of magnetohydrodynamics. On practical examples of mass spectrometer simulation, Einzel lens, electron movement and electric circuit breaker, the functionality of the computational models and the correctness of the obtained results were documented. Created computational modules can be used to design and optimize products using magnetohydrodynamic phenomena.
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