Effect of ultrasonically induced nucleation on ice crystals’ size and shape during freezing in vials

This work aimed at determining empirical correlations between the final frozen product ice crystals’ characteristics (mean size and shape) and ultrasound assisted freezing operating conditions (supercooling and acoustic power). For this purpose 10% w/w mannitol aqueous solution samples contained in...

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Veröffentlicht in:	Chemical engineering science 2010-05, Vol.65 (10), p.3064-3071
Hauptverfasser:	Saclier, Mathieu, Peczalski, Roman, Andrieu, Julien
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics Applied sciences Chemical engineering Crystals Exact sciences and technology Experimental design Freezing Frozen Ice Ice crystals Nuclear power generation Nucleation Supercooling Ultrasounds Vials
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container_end_page	3071
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container_title	Chemical engineering science
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creator	Saclier, Mathieu Peczalski, Roman Andrieu, Julien
description	This work aimed at determining empirical correlations between the final frozen product ice crystals’ characteristics (mean size and shape) and ultrasound assisted freezing operating conditions (supercooling and acoustic power). For this purpose 10% w/w mannitol aqueous solution samples contained in vials were frozen by means of a refrigerated shelf coupled with an ultrasonic device able to induce ice nucleation. Ice crystals’ were observed using reflected light optical microscopy over samples’ transversal and longitudinal sections in a cold chamber. A response surface analysis based on a five levels composite experimental design had been carried out. It was found that increasing supercooling and acoustic power resulted in decreasing ice crystals’ mean size and increasing their mean circularity.
doi_str_mv	10.1016/j.ces.2010.01.035
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subjects	Acoustics Applied sciences Chemical engineering Crystals Exact sciences and technology Experimental design Freezing Frozen Ice Ice crystals Nuclear power generation Nucleation Supercooling Ultrasounds Vials
title	Effect of ultrasonically induced nucleation on ice crystals’ size and shape during freezing in vials
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