Lorentz Force Velocimetry (LFV) is a non-contact electromagnetic flow measurement technique to measure the flow rate of aggressive or high-temperature molten metal such as steel or aluminum and to give information about the local flow. In this paper, we present an extension of the LFV based on the Lorentz force signals to detect solid particles in a conducting liquid metal. The results are verified by the magnetohydrodynamics Volume Element Method using ANSYS FLUENT and validated by measurements. We are able to use electromagnetic induction in a conducting liquid that moves in an external magnetic field for contactless flow measurement. In Lorentz Force Velocimetry, we determine the induced force on the magnet to obtain velocity information...
This paper aims to investigate the effect of electromagnetic forces on bubble flow under an anode us...
In times of sustainable energy savings and steadily rising commodity prices, life withoutflow measu...
This document provides most important guidelines for the preparation of the ETC13 Proceedings papers...
Lorentz Force Velocimetry (LFV) is a non-contact electromagnetic flow measurement technique to measu...
Lorentz force velocimetry (LFV) is a non-contact electromagnetic flow measurement technique for elec...
When an electrically conducting fluid moves through a magnetic field, fluid mechanics and electromag...
Providing flow analysis in case of aggressive and hot liquids is a complicated task, especially when...
Lorentz force velocimetry (LFV) is a contactless technique for the measurement of liquid metal flowr...
International audienceIn a previous paper [X. Wang et al., J. Appl. Phys. 120, 014903 (2016)], sever...
Liquid metal flow interacts with a magnetic field under the influence of Lorentz force. This interac...
International audienceA new contactless technique is presented for the detection of micron-sized ins...
A Lorentz force flowmeter is a device for the contactless measurement of flow rates in electrically ...
The measurement of flow velocities inside metal melts is particularly challenging. Due to the high t...
Two non-contact experimental methods of flow rate measurements for aggressive conductive liquids are...
Lorentzkraft-Anemometrie ist ein universelles Verfahren zur kontaktlosen Durchflussmessung elektris...
This paper aims to investigate the effect of electromagnetic forces on bubble flow under an anode us...
In times of sustainable energy savings and steadily rising commodity prices, life withoutflow measu...
This document provides most important guidelines for the preparation of the ETC13 Proceedings papers...
Lorentz Force Velocimetry (LFV) is a non-contact electromagnetic flow measurement technique to measu...
Lorentz force velocimetry (LFV) is a non-contact electromagnetic flow measurement technique for elec...
When an electrically conducting fluid moves through a magnetic field, fluid mechanics and electromag...
Providing flow analysis in case of aggressive and hot liquids is a complicated task, especially when...
Lorentz force velocimetry (LFV) is a contactless technique for the measurement of liquid metal flowr...
International audienceIn a previous paper [X. Wang et al., J. Appl. Phys. 120, 014903 (2016)], sever...
Liquid metal flow interacts with a magnetic field under the influence of Lorentz force. This interac...
International audienceA new contactless technique is presented for the detection of micron-sized ins...
A Lorentz force flowmeter is a device for the contactless measurement of flow rates in electrically ...
The measurement of flow velocities inside metal melts is particularly challenging. Due to the high t...
Two non-contact experimental methods of flow rate measurements for aggressive conductive liquids are...
Lorentzkraft-Anemometrie ist ein universelles Verfahren zur kontaktlosen Durchflussmessung elektris...
This paper aims to investigate the effect of electromagnetic forces on bubble flow under an anode us...
In times of sustainable energy savings and steadily rising commodity prices, life withoutflow measu...
This document provides most important guidelines for the preparation of the ETC13 Proceedings papers...