Add to ORKGA number of different methods have been developed for noncontact electromagnetic treatment of liquid metal and to investigate the melting/solidification processes. Applying AC magnetic field in terrestrial conditions, along with the buoyancy and thermo-capillary forces, results in turbulent flow. The use of a homogenous DC magnetic field allows damping both of the turbulence and the large scale flow at different rates leading to surprising results at some stages. The dynamic interaction of the turbulent flow with the oscillating interface needs to be accounted if it is required to levitate liquid metal of up to few kilograms without the contact to container walls. At the high values of magnetic field some oscillation modes are damped quickl...
Oscillating drop experiments allow the surface tension and viscosity of high temperature and highly ...
This article contains a review of research activity in the University of Greenwich to model the effe...
In high intensity and high gradient magnetic fields the volumetric force on diamagnetic material, su...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
The intense AC magnetic field required to produce levitation in terrestrial conditions, along with t...
A high DC magnetic field can be used to levitate liquid droplets in terrestrial conditions, as is kn...
The presented numerical modelling for the magnetic levitation involves coupling of the electromagnet...
This work comprises accurate computational analysis of levitated liquid droplet oscillations in AC a...
Electromagnetic levitation of liquid metal droplets can be used to measure the properties of highly ...
We present practical modelling techniques for electromagnetically agitated liquid metal flows involv...
In the casting of reactive metals, such as titanium alloys, contamination can be prevented if there ...
This work presents computation analysis of levitated liquid thermal and flow fields with free surfac...
Numerical models are used to investigate behavior of liquid droplets suspended in high DC magnetic f...
Electromagnetic Levitation (EML) is a valuable method for measuring the thermo-physical properties o...
Oscillating drop experiments allow the surface tension and viscosity of high temperature and highly ...
This article contains a review of research activity in the University of Greenwich to model the effe...
In high intensity and high gradient magnetic fields the volumetric force on diamagnetic material, su...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
It is well known from experiments and industrial applications of cold crucible melting that an inten...
The intense AC magnetic field required to produce levitation in terrestrial conditions, along with t...
A high DC magnetic field can be used to levitate liquid droplets in terrestrial conditions, as is kn...
The presented numerical modelling for the magnetic levitation involves coupling of the electromagnet...
This work comprises accurate computational analysis of levitated liquid droplet oscillations in AC a...
Electromagnetic levitation of liquid metal droplets can be used to measure the properties of highly ...
We present practical modelling techniques for electromagnetically agitated liquid metal flows involv...
In the casting of reactive metals, such as titanium alloys, contamination can be prevented if there ...
This work presents computation analysis of levitated liquid thermal and flow fields with free surfac...
Numerical models are used to investigate behavior of liquid droplets suspended in high DC magnetic f...
Electromagnetic Levitation (EML) is a valuable method for measuring the thermo-physical properties o...
Oscillating drop experiments allow the surface tension and viscosity of high temperature and highly ...
This article contains a review of research activity in the University of Greenwich to model the effe...
In high intensity and high gradient magnetic fields the volumetric force on diamagnetic material, su...