On nonisothermal electroconvection
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The flow from the tip of a needle electrode is caused by the Coulomb force acting on the space charge [1–3]. This charge is formed because of the dependence of the conductivity on the temperature, nonuniformity of which is due to Joule heating [1] and the electric field intensity [2] or processes near the electrode [3–5]. The present paper considers the stability of a dielectric liquid between spherical electrodes in order to elucidate the possibility of a thermoelectrohydrodynainic flow due to Joule heating. In the presence of external heating, the possibility of such a flow has been demonstrated both experimentally and theoretically [6–8].
nonisothermal electroconvection, Joule heating, Magnetohydrodynamics and electrohydrodynamics, needle electrode, thermoelectrohydrodynamic flow
nonisothermal electroconvection, Joule heating, Magnetohydrodynamics and electrohydrodynamics, needle electrode, thermoelectrohydrodynamic flow
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