Control of conducting two-phase vapor-liquid medium hydrodynamics with the help of crossed electric and magnetic fields in microgravity conditions

Valentin I. Popov

doi:10.1117/12.351277

6 July 1999 Control of conducting two-phase vapor-liquid medium hydrodynamics with the help of crossed electric and magnetic fields in microgravity conditions

Valentin I. Popov

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Proceedings Volume 3792, Materials Research in Low Gravity II; (1999) https://doi.org/10.1117/12.351277
Event: SPIE's International Symposium on Optical Science, Engineering, and Instrumentation, 1999, Denver, CO, United States

Abstract

In the given work the problem of force action of stationary homogeneous crossed electric and magnetic fields on conducting vapor-liquid medium hydrodynamics in microgravity conditions is considered. Magnetic hydrodynamics mathematical model of weak dispersed conducting diamagnetic vapor-liquid medium is developed. For closure of magnetohydrodynamic equations the method of spatial average of variables is used by means of local self concerted field. Experimental evaluations of crossed electric and magnetic fields force action effectiveness of gas bubbles hydrodynamics in weak conducting carrying liquids in microgravity conditions are realized. It is shown in the original, that the force on gas bubbles in conducting carrying liquids of stationary homogeneous electric and magnetic fields is more effective and predictable, that from the side of vibrating, thermal, electrostatic and magnetic force fields.

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Valentin I. Popov "Control of conducting two-phase vapor-liquid medium hydrodynamics with the help of crossed electric and magnetic fields in microgravity conditions", Proc. SPIE 3792, Materials Research in Low Gravity II, (6 July 1999); https://doi.org/10.1117/12.351277

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KEYWORDS

Magnetism

Liquids

Particles

Electromagnetism

Capillaries

Mathematical modeling

Mercury

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