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Steady-state model of an arc discharge in flowing water
E. Gidalevich
*
,
R. L. Boxman
*
Corresponding author for this work
School of Electrical Engineering
Tel Aviv University
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
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Keyphrases
Flowing Water
100%
Steady-state Model
100%
Plasma Bubbles
100%
Arc Discharge
100%
Water Stream
66%
Discharge Power
66%
Steady State
33%
Conservation Laws
33%
Black Men
33%
Liquid Water
33%
Oxygen Atom
33%
Hydrogen Atom
33%
Water Vapor
33%
Neutral Hydrogen
33%
Strong Absorption
33%
Plasma Radiation
33%
Water Velocity
33%
Plasma Temperature
33%
Water Density
33%
Chock
33%
Convective Heat Flux
33%
Submerged Arc Discharge
33%
Ultraviolet Region
33%
Engineering
Cross Section
100%
Convective
100%
Heat Flux
100%
Density Ratio
100%
Conservation Law
100%
Stream Direction
100%
Steady-State Model
100%
Oxygen Atom
100%
Temperature Plasma
100%
Physics
Steady State
100%
Arc Discharge
100%
Conservation Law
50%
Plasma Radiation
50%
Oxygen Atom
50%
Plasma Temperature
50%