Homogeneous nucleation of argon in an unsteady hypersonic flow field

The vapor nucleation of argon was investigated in shock tube expansions starting from room temperature. The cooling from the superheated initial state to nucleation onset was attained in unsteady flow fields at high Mach numbers M=5. Thermodynamic states for homogeneous nucleation were observed betw...

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Veröffentlicht in:	The Journal of chemical physics 1999-05, Vol.110 (17), p.8842-8843
Hauptverfasser:	Zahoransky, R. A., Höschele, J., Steinwandel, J.
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Sprache:	eng
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description	The vapor nucleation of argon was investigated in shock tube expansions starting from room temperature. The cooling from the superheated initial state to nucleation onset was attained in unsteady flow fields at high Mach numbers M=5. Thermodynamic states for homogeneous nucleation were observed between 30 and 180 Torr at corresponding temperatures in the range of 50–70 K. The high starting temperatures do not affect the nucleation onset states compared to previous experiments on the subject, where the expansions started from much lower temperatures. The slight differences in the onset states to previous experiments employing cryogenic shock and Ludwieg tubes may be attributed to the higher cooling rates and to nonisentropic expansion effects.
doi_str_mv	10.1063/1.478790
format	Article
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title	Homogeneous nucleation of argon in an unsteady hypersonic flow field
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