6533b82ffe1ef96bd1295b92
RESEARCH PRODUCT
Dynamic mode decomposition of magnetohydrodynamic bubble chain flow in a rectangular vessel
Andris JakovicsPeteris ZvejnieksMihails BirjukovsMartins Klevssubject
Fluid Flow and Transfer ProcessesPhysicsLiquid metalMechanical EngineeringBubbleComputational MechanicsFluid Dynamics (physics.flu-dyn)FOS: Physical sciencesMechanicsPhysics - Fluid DynamicsWakeCondensed Matter PhysicsVolumetric flow ratePhysics::Fluid DynamicsFlow (mathematics)Mechanics of MaterialsDynamic mode decompositionVector fieldMagnetohydrodynamic drivedescription
We demonstrate the first application of dynamic mode decomposition (DMD) to bubble flow with resolved dynamic liquid/gas boundaries. Specifically, we have applied DMD to the output of numerical simulations for a system where chains of bubbles ascend through a rectangular liquid metal vessel. Flow patterns have been investigated in the vessel and bubble reference frames. We show how gas flow rate and applied magnetic affect bubble wake flow and larger-scale flow structures within the liquid metal vessel by examining the velocity field mode statistics over trajectory time and total flow time as well as the computed mode velocity fields. The results of this proof-of-concept study indicate that DMD can yield unique insights into various momentum transfer and bubble interaction mechanisms, and that mode analysis can be used to explain the observed flow patterns. In addition, we showcase our own implementation of DMD that combines resilience to data noise, memory efficiency and special pre-processing for input data.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-03-22 |