Viscous fluids dispersion under conditions of plasma heating

Abstract

The mathematical model of mechanical dispersion process of viscous fluids under conditions of plasma film heating on a rotatable disk was developed. The calculations shows, that at the liquid film plasma heating on a rotatable disk up to 300°C at the low rotational speeds (50 Hertz) the same fog spray is achieved, as well as at a cold film dispersion on high rotational speeds of a disk (200 Hertz). The developed mathematical model can be used at the calculation and optimization disk atomizers operating conditions, which can be used as viscous and high-viscosity fluids dispersion, and also combustible water-fuel compositions of various structure.

Original language	English
Title of host publication	8th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2004
Pages	245-247
Number of pages	3
Volume	2
Publication status	Published - 2004
Event	8th Korea-Russia International Symposium on Science and Technology, KORUS 2004 - Tomsk, Russian Federation Duration: 26 Jun 2004 → 3 Jul 2004

Other

Other	8th Korea-Russia International Symposium on Science and Technology, KORUS 2004
Country	Russian Federation
City	Tomsk
Period	26.6.04 → 3.7.04

Keywords

Disk
Dispersion
Film
Fluid
Frequency
Heat
Plasma
Reactor
Rotation
Speed

ASJC Scopus subject areas

Engineering(all)

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Medvedeva, O. V., & Karengin, A. G. (2004). Viscous fluids dispersion under conditions of plasma heating. In 8th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2004 (Vol. 2, pp. 245-247)

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abstract = "The mathematical model of mechanical dispersion process of viscous fluids under conditions of plasma film heating on a rotatable disk was developed. The calculations shows, that at the liquid film plasma heating on a rotatable disk up to 300°C at the low rotational speeds (50 Hertz) the same fog spray is achieved, as well as at a cold film dispersion on high rotational speeds of a disk (200 Hertz). The developed mathematical model can be used at the calculation and optimization disk atomizers operating conditions, which can be used as viscous and high-viscosity fluids dispersion, and also combustible water-fuel compositions of various structure.",

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author = "Medvedeva, {O. V.} and Karengin, {A. G.}",

year = "2004",

language = "English",

isbn = "0780383834",

volume = "2",

pages = "245--247",

booktitle = "8th Korea-Russia International Symposium on Science and Technology - Proceedings: KORUS 2004",

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AU - Medvedeva, O. V.

AU - Karengin, A. G.

PY - 2004

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N2 - The mathematical model of mechanical dispersion process of viscous fluids under conditions of plasma film heating on a rotatable disk was developed. The calculations shows, that at the liquid film plasma heating on a rotatable disk up to 300°C at the low rotational speeds (50 Hertz) the same fog spray is achieved, as well as at a cold film dispersion on high rotational speeds of a disk (200 Hertz). The developed mathematical model can be used at the calculation and optimization disk atomizers operating conditions, which can be used as viscous and high-viscosity fluids dispersion, and also combustible water-fuel compositions of various structure.

AB - The mathematical model of mechanical dispersion process of viscous fluids under conditions of plasma film heating on a rotatable disk was developed. The calculations shows, that at the liquid film plasma heating on a rotatable disk up to 300°C at the low rotational speeds (50 Hertz) the same fog spray is achieved, as well as at a cold film dispersion on high rotational speeds of a disk (200 Hertz). The developed mathematical model can be used at the calculation and optimization disk atomizers operating conditions, which can be used as viscous and high-viscosity fluids dispersion, and also combustible water-fuel compositions of various structure.

KW - Disk

KW - Dispersion

KW - Film

KW - Fluid

KW - Frequency

KW - Heat

KW - Plasma

KW - Reactor

KW - Rotation

KW - Speed

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