This thesis presents a numerical method for the phase-resolving simulation of rigid particles and deformable bubbles in viscous, magnetohydrodynamic flows. The presented approach features solid robustness and high numerical efficiency. The implementation is three-dimensional and fully parallel suiting the needs of modern high-performance computing. In addition to the steps towards magnetohydrodynamics, the thesis covers method development with respect to the immersed boundary method which can be summarized in simple words by From rigid spherical particles to deformable bubbles. The development comprises the extension of an existing immersed boundary method to non-spherical particles and very low particle-to-fluid density ratios. A detailed...
DoctorAccurate and efficient numerical methods have been developed to simulate flow including bubble...
Lorentz Force Velocimetry (LFV) is a non-contact electromagnetic flow measurement technique to measu...
Many fluid flow processes in nature and technology are characterized by the presence and coexistence...
This thesis presents a numerical method for the phase-resolving simulation of rigid particles and de...
This thesis presents numerical methods, software, and simulations of multiphase flows with bubbles a...
A mutiscale numerical approach is developed for the investigation of bubbly flows in turbulent envir...
This thesis presents an algorithm for simulating the equations of ideal magnetohydrodynamics and oth...
As a simple and affordable alternative to often prohibitively expensive or unavailable X-ray and neu...
Surfactants are surface active agents that accumulate at fluid interfaces and influence interfacial ...
Gas-liquid bubbly flows exist in many engineering processes. However, limitations in understanding p...
In the current work the hydrodynamic interaction between a settling particle and a rising microbubbl...
This is a pre-copyedited, author-produced PDF of an article accepted for publication in Multiphase S...
Bubbly flows belong to dispersed two-phase flows involving a gas and a liquid phase, which are broug...
Based on the recent work by Fakhari et al. (2017b), a three-dimensional phase-field lattice Boltzman...
This thesis focuses on developing a computationally-efficient flow solver in the area of computation...
DoctorAccurate and efficient numerical methods have been developed to simulate flow including bubble...
Lorentz Force Velocimetry (LFV) is a non-contact electromagnetic flow measurement technique to measu...
Many fluid flow processes in nature and technology are characterized by the presence and coexistence...
This thesis presents a numerical method for the phase-resolving simulation of rigid particles and de...
This thesis presents numerical methods, software, and simulations of multiphase flows with bubbles a...
A mutiscale numerical approach is developed for the investigation of bubbly flows in turbulent envir...
This thesis presents an algorithm for simulating the equations of ideal magnetohydrodynamics and oth...
As a simple and affordable alternative to often prohibitively expensive or unavailable X-ray and neu...
Surfactants are surface active agents that accumulate at fluid interfaces and influence interfacial ...
Gas-liquid bubbly flows exist in many engineering processes. However, limitations in understanding p...
In the current work the hydrodynamic interaction between a settling particle and a rising microbubbl...
This is a pre-copyedited, author-produced PDF of an article accepted for publication in Multiphase S...
Bubbly flows belong to dispersed two-phase flows involving a gas and a liquid phase, which are broug...
Based on the recent work by Fakhari et al. (2017b), a three-dimensional phase-field lattice Boltzman...
This thesis focuses on developing a computationally-efficient flow solver in the area of computation...
DoctorAccurate and efficient numerical methods have been developed to simulate flow including bubble...
Lorentz Force Velocimetry (LFV) is a non-contact electromagnetic flow measurement technique to measu...
Many fluid flow processes in nature and technology are characterized by the presence and coexistence...