Experimental Evidence of the Effect of Evaporation-Condensation on Thermal Marangoni Flows in Aqueous Fatty Alcohol Solutions

The static surface tension (ςe) of aqueous solutions of a fatty alcohol versus temperature exhibits a minimum. Thus, a temperature gradient which is created at the free surface of such a solution at temperatures higher than that of the minimum (ςe) should induce a surface flow from the cold area to...

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Veröffentlicht in:	Journal of colloid and interface science 1998-10, Vol.206 (1), p.332-333
Hauptverfasser:	Azouni, Maherzia Aza, Pétré, Georges
Format:	Artikel
Sprache:	eng
Schlagworte:	alcohols Chemistry evaporation Exact sciences and technology Gas-liquid interface and liquid-liquid interface General and physical chemistry Solution properties Solutions Surface physical chemistry thermal marangoni
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container_end_page	333
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container_title	Journal of colloid and interface science
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creator	Azouni, Maherzia Aza Pétré, Georges
description	The static surface tension (ςe) of aqueous solutions of a fatty alcohol versus temperature exhibits a minimum. Thus, a temperature gradient which is created at the free surface of such a solution at temperatures higher than that of the minimum (ςe) should induce a surface flow from the cold area to the hot one. This was indeed observed even at temperatures much lower than that of the minimum. A possible explanation is the evaporation of alcohol at the hot area where the surface tension increases, and its condensation on the cold area where the surface tension decreases, the alcohol being tranported by the gas phase. The thickness of the gas phase over the liquid could play a role in the observed flows. A device was built in which the thickness of the gas phase could be adjusted. Experiments performed with a 6.2 × 10−3msolution ofn-heptanol indicate a lowering of the surface velocity where the thickness of the gas phase is reduced.
doi_str_mv	10.1006/jcis.1998.5703
format	Article
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Thus, a temperature gradient which is created at the free surface of such a solution at temperatures higher than that of the minimum (ςe) should induce a surface flow from the cold area to the hot one. This was indeed observed even at temperatures much lower than that of the minimum. A possible explanation is the evaporation of alcohol at the hot area where the surface tension increases, and its condensation on the cold area where the surface tension decreases, the alcohol being tranported by the gas phase. The thickness of the gas phase over the liquid could play a role in the observed flows. A device was built in which the thickness of the gas phase could be adjusted. 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subjects	alcohols Chemistry evaporation Exact sciences and technology Gas-liquid interface and liquid-liquid interface General and physical chemistry Solution properties Solutions Surface physical chemistry thermal marangoni
title	Experimental Evidence of the Effect of Evaporation-Condensation on Thermal Marangoni Flows in Aqueous Fatty Alcohol Solutions
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