Please use this identifier to cite or link to this item: https://repositorio.uca.edu.ar/handle/123456789/18334
Título : Theoretical prediction of the effect of heat transfer parameters on cooling rates of liquidfilled plastic straws used for cryopreservation of spermatozoa
Autor : Sansiñena, Marina Julia 
Santos, María V. 
Zaritzky, Noemí 
Baeza, Rosa 
Palabras clave : CRIOPRESERVACIONESPERMATOZOIDESTRANSFERENCIA DE CALORPLASTICOS
Fecha de publicación : 2010
Editorial : CryoLetters
Cita : Sansiñena, M. J. et al. Theoretical prediction of the effect of heat transfer parameters on cooling rates of liquidfilled plastic straws used for cryopreservation of spermatozoa [en línea]. CryoLetters. 2010, 31(2). Disponible en: https://repositorio.uca.edu.ar/handle/123456789/18334
Resumen : Abstract: Heat transfer plays a key role in cryopreservation of liquid semen in plastic straws. The effect of several parameters on the cooling rate of a liquid-filled polypropylene straw when plunged into liquid nitrogen was investigated using a theoretical model. The geometry of the straw containing the liquid was assimilated as two concentric finite cylinders of different materials: the fluid and the straw; the unsteady-state heat conduction equation for concentric cylinders was numerically solved. Parameters studied include external (convection) heat transfer coefficient (h), the thermal properties of straw manufacturing material and wall thickness. It was concluded that the single most important parameter affecting the cooling rate of a liquid column contained in a straw is the external heat transfer coefficient in LN2. Consequently, in order to attain maximum cooling rates, conditions have to be designed to obtain the highest possible heat transfer coefficient when the plastic straw is plunged in liquid nitrogen.
URI : https://repositorio.uca.edu.ar/handle/123456789/18334
ISSN : 0143-2044 (online)
Disciplina: INGENIERIA EN ALIMENTOS
Derechos: Acceso abierto
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