Attainable Superheat of Argon−Helium, Argon−Neon Solutions

The method of lifetime measurement has been used to investigate the kinetics of spontaneous boiling-up of superheated argon−helium and argon−neon solutions. Experiments were made at a pressure of p = 1.5 MPa and concentrations up to 0.33 mol% in the range of nucleation rates from 104 to 108 s−1 m−3....

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Veröffentlicht in:	The journal of physical chemistry. B 2008-10, Vol.112 (41), p.12973-12975
Hauptverfasser:	Baidakov, Vladimir G, Kaverin, Aleksey M, Andbaeva, Valentina N
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Sprache:	eng
Schlagworte:	B: Statistical Mechanics, Thermodynamics, Medium Effects
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creator	Baidakov, Vladimir G Kaverin, Aleksey M Andbaeva, Valentina N
description	The method of lifetime measurement has been used to investigate the kinetics of spontaneous boiling-up of superheated argon−helium and argon−neon solutions. Experiments were made at a pressure of p = 1.5 MPa and concentrations up to 0.33 mol% in the range of nucleation rates from 104 to 108 s−1 m−3. The homogeneous nucleation regime has been distinguished. With good agreement between experimental data and homogeneous nucleation theory in temperature and concentration dependences of the nucleation rate, a systematic underestimation by 0.25−0.34 K has been revealed in superheat temperatures over the saturated line attained by experiment as compared with theoretical values calculated in a macroscopic approximation. The revealed disagreement between theory and experiment is connected with the dependence of the properties of new-phase nuclei on their size.
doi_str_mv	10.1021/jp806048e
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Experiments were made at a pressure of p = 1.5 MPa and concentrations up to 0.33 mol% in the range of nucleation rates from 104 to 108 s−1 m−3. The homogeneous nucleation regime has been distinguished. With good agreement between experimental data and homogeneous nucleation theory in temperature and concentration dependences of the nucleation rate, a systematic underestimation by 0.25−0.34 K has been revealed in superheat temperatures over the saturated line attained by experiment as compared with theoretical values calculated in a macroscopic approximation. 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The homogeneous nucleation regime has been distinguished. With good agreement between experimental data and homogeneous nucleation theory in temperature and concentration dependences of the nucleation rate, a systematic underestimation by 0.25−0.34 K has been revealed in superheat temperatures over the saturated line attained by experiment as compared with theoretical values calculated in a macroscopic approximation. The revealed disagreement between theory and experiment is connected with the dependence of the properties of new-phase nuclei on their size.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>18798666</pmid><doi>10.1021/jp806048e</doi><tpages>3</tpages></addata></record>
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title	Attainable Superheat of Argon−Helium, Argon−Neon Solutions
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