Add to ORKGThe numerical model for electrically conducting liquid droplets levitated in AC magnetic field is applied to demonstrate various factors affecting the accuracy of material property value measurements in microgravity conditions. The included effects are the electromagnetic force induced stirring and the resulting turbulence, the thermo-capillary convection, and the droplet rotation. The results are validated against available analytical solutions
A high DC magnetic field can be used to levitate liquid droplets in terrestrial conditions, as is kn...
Numerical models are used to analyze the complex behaviour of magnetically levitated droplets in the...
Electromagnetic levitation techniques are used in a microgravity environment to allow materials rese...
The numerical model for electrically conducting liquid droplets levitated in AC magnetic field is ex...
This article contains a review of research activity in the University of Greenwich to model the effe...
Electromagnetic levitation of liquid metal droplets can be used to measure the properties of highly ...
This work comprises accurate computational analysis of levitated liquid droplet oscillations in AC a...
The intense AC magnetic field required to produce levitation in terrestrial conditions, along with t...
The intense AC magnetic field required to produce levitation in terrestrial conditions, along with t...
Microgravity provides ideal experimental conditions for studying highly reactive and under-cooled ma...
Numerical models are used to investigate behavior of liquid droplets suspended in high DC magnetic f...
The values of material physical properties are vital for the successful use of numerical simulations...
In high intensity and high gradient magnetic fields the volumetric force on diamagnetic material, su...
Electromagnetic Levitation (EML) is a valuable method for measuring the thermo-physical properties o...
Electromagnetic levitation of electrically conductive droplets by alternating magnetic fields is a t...
A high DC magnetic field can be used to levitate liquid droplets in terrestrial conditions, as is kn...
Numerical models are used to analyze the complex behaviour of magnetically levitated droplets in the...
Electromagnetic levitation techniques are used in a microgravity environment to allow materials rese...
The numerical model for electrically conducting liquid droplets levitated in AC magnetic field is ex...
This article contains a review of research activity in the University of Greenwich to model the effe...
Electromagnetic levitation of liquid metal droplets can be used to measure the properties of highly ...
This work comprises accurate computational analysis of levitated liquid droplet oscillations in AC a...
The intense AC magnetic field required to produce levitation in terrestrial conditions, along with t...
The intense AC magnetic field required to produce levitation in terrestrial conditions, along with t...
Microgravity provides ideal experimental conditions for studying highly reactive and under-cooled ma...
Numerical models are used to investigate behavior of liquid droplets suspended in high DC magnetic f...
The values of material physical properties are vital for the successful use of numerical simulations...
In high intensity and high gradient magnetic fields the volumetric force on diamagnetic material, su...
Electromagnetic Levitation (EML) is a valuable method for measuring the thermo-physical properties o...
Electromagnetic levitation of electrically conductive droplets by alternating magnetic fields is a t...
A high DC magnetic field can be used to levitate liquid droplets in terrestrial conditions, as is kn...
Numerical models are used to analyze the complex behaviour of magnetically levitated droplets in the...
Electromagnetic levitation techniques are used in a microgravity environment to allow materials rese...