Electromagnetic Flow around Two Non-conducting Particles and the Interaction Forces -Different Diameter Cases-

Ogasawara, Takuma; Yoshikawa, Noboru; Shoji, Tetsuya; Asai, Toshifumi

doi:10.2355/isijinternational.43.862

Cited by 6 publications

(8 citation statements)

References 7 publications

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“…The second term is calculated by integrating the normal (diagonal) components of the em pressure tensor and the inertia tensor due to convection over the particle surface, as given by equation ( 9). The third term is calculated by integrating the viscous stress tensor over the particle surface, as given by equation (10). The viscous stress tensor is given by equation (11).…”

Section: Fundamental Equations and The Boundary Conditionsmentioning

confidence: 99%

“…The third term is calculated by integrating the viscous stress tensor over the particle surface, as given by equation (10). The viscous stress tensor is given by equation (11).…”

Section: Fundamental Equations and The Boundary Conditionsmentioning

confidence: 99%

“…The two particles have the same y-component values in Case 3. This was discussed in terms of the pressure distribution on the particles, which mostly cancel each other out by integrating over the particle surface [8,11].…”

Section: Analysis Of Em-flow and Em Migration Forces Around Two Parti...mentioning

confidence: 99%

“…As the first step in analysing the many-particle problem, the authors have studied two non-conducting spherical particles in a conducting liquid subjected to a dc em-field [8][9][10][11]. Two spherical particles having the same diameters were analysed taking into account [8] and without taking into account [9] the em-flow around the particles.…”

Section: Introductionmentioning

confidence: 99%

“…Two spherical particles having the same diameters were analysed taking into account [8] and without taking into account [9] the em-flow around the particles. Then, two particles having different diameters were analysed taking into account the em-flow [11]. In regard to these analyses, DaShu et al [12] also performed numerical studies for single discs having various aspect ratios and two particles having the same diameters placed in a row in a direction parallel to the direction of the em force [13].…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Simulation of conducting liquid flow around two non-conducting particles in the presence of a dc electromagnetic field (oblique configuration of particles to the field)

Ogasawara

Yoshikawa

Shoji

et al. 2004

Modelling Simul. Mater. Sci. Eng.

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In order to analyse the interactions of non-metallic (non-conducting) inclusions in (conducting) liquid metals in the presence of an electromagnetic (em) field, a simple system of two spherical particles was studied. This study dealt with particles in a row in an oblique configuration with respect to the dc em-field.The interaction force between the particles and the migration force exerted on them were calculated, taking into account the effect of electromagnetically driven flow (em-flow) of the liquid.The state of em-flow had essentially the same features as the non-oblique cases; however, a strong downward flow was generated on the particle side. In contrast to the bulk em force the magnitude of the migration force became lower. A small (relative) repulsive force existed between the two particles, which is related to the anti-clockwise rotating forces of the particle pair.The results obtained give valuable insight into the case that takes into account the particle coagulation and transportation in the em processing of metals.

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Section: Fundamental Equations and The Boundary Conditionsmentioning

confidence: 99%

“…The third term is calculated by integrating the viscous stress tensor over the particle surface, as given by equation (10). The viscous stress tensor is given by equation (11).…”

Section: Fundamental Equations and The Boundary Conditionsmentioning

confidence: 99%

Section: Analysis Of Em-flow and Em Migration Forces Around Two Parti...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Simulation of conducting liquid flow around two non-conducting particles in the presence of a dc electromagnetic field (oblique configuration of particles to the field)

Ogasawara

Yoshikawa

Shoji

et al. 2004

Modelling Simul. Mater. Sci. Eng.

Self Cite

View full text Add to dashboard Cite

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Electric Current Field‐Assisted Inclusions Capture by Bubbles in Molten Steel

Liu

Zhang

2020

steel research int.

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Electric current is used to assist bubbles in removing inclusions from molten steel. Generally, large‐size bubbles do not effectively remove inclusions but instead convectively agitate the molten steel. The results show that the number of inclusions in the sample is reduced by 45% after the large‐size bubbles are coupled with the pulsed current, whereas the amount of inclusions in the sample treated only with large‐size bubbles does not change much. Numerical calculation reveals that electric current induces a force acting on the inclusion as the inclusion is close to a bubble. According to the nature of the force, there are three different effects, i.e., repulsion, attraction, and driven. The electric free energy change is calculated as well when an inclusion is captured by a bubble. Electric current causes a longer contact time and a shorter induction time between inclusions and bubbles, thus improving the collision and attachment probability and decreasing the detachment probability. As a result, inclusions are more easily captured by bubbles.

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Application of Electromagnetic (EM) Separation Technology to Metal Refining Processes: A Review

Zhang

Wang

Dong

et al. 2014

Metall Mater Trans B

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Electromagnetic Flow around Two Non-conducting Particles and the Interaction Forces -Different Diameter Cases-

Cited by 6 publications

References 7 publications

Simulation of conducting liquid flow around two non-conducting particles in the presence of a dc electromagnetic field (oblique configuration of particles to the field)

Simulation of conducting liquid flow around two non-conducting particles in the presence of a dc electromagnetic field (oblique configuration of particles to the field)

Electric Current Field‐Assisted Inclusions Capture by Bubbles in Molten Steel

Application of Electromagnetic (EM) Separation Technology to Metal Refining Processes: A Review

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