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Dynamics of vortex line density and heat transfer processes in superfluid helium. / Kondaurova, L. P.
в: Low Temperature Physics, Том 44, № 1, 01.01.2018, стр. 29-35.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Dynamics of vortex line density and heat transfer processes in superfluid helium
AU - Kondaurova, L. P.
N1 - Publisher Copyright: © 2018 Author(s).
PY - 2018/1/1
Y1 - 2018/1/1
N2 - Three dynamics equations for vortex line density are analyzed. It is shown that the Vinen equation gives the values of vortex tangle development time in the case of a constant counterflow more accurately than other alternative equations. Within the system of equations of superfluid turbulence hydrodynamics, obtained using a phenomenological approach, helium boiling times as a function of heat flux density are found, using alternative dynamics equations of vortex tangle density. Unlike the experiments in which different dependences of boiling time tboil on the heat flux density Q (tboil Qn, -4 ≤ n ≤ -2) are observed, in this case we get only a power-law dependence with an exponent of n = -4. We obtain a velocity distribution of the normal component along the channel, and the temperature dependence of the time near the heater. We conduct a comparison against the numerical and experimental results that were previously obtained in literature.
AB - Three dynamics equations for vortex line density are analyzed. It is shown that the Vinen equation gives the values of vortex tangle development time in the case of a constant counterflow more accurately than other alternative equations. Within the system of equations of superfluid turbulence hydrodynamics, obtained using a phenomenological approach, helium boiling times as a function of heat flux density are found, using alternative dynamics equations of vortex tangle density. Unlike the experiments in which different dependences of boiling time tboil on the heat flux density Q (tboil Qn, -4 ≤ n ≤ -2) are observed, in this case we get only a power-law dependence with an exponent of n = -4. We obtain a velocity distribution of the normal component along the channel, and the temperature dependence of the time near the heater. We conduct a comparison against the numerical and experimental results that were previously obtained in literature.
KW - NORMAL-FLUID TURBULENCE
KW - II THERMAL COUNTERFLOW
KW - LIQUID-HELIUM
KW - MUTUAL FRICTION
KW - VISUALIZATION
KW - HEII
KW - FILM
KW - CONDUCTIVITY
KW - RECONNECTION
KW - TRANSITION
UR - http://www.scopus.com/inward/record.url?scp=85045943594&partnerID=8YFLogxK
U2 - 10.1063/1.5020893
DO - 10.1063/1.5020893
M3 - Article
AN - SCOPUS:85045943594
VL - 44
SP - 29
EP - 35
JO - Low Temperature Physics
JF - Low Temperature Physics
SN - 1063-777X
IS - 1
ER -
ID: 12846777