A simple method for prediction of chilling times: Extension to three-dimensional irregular shapes

Lin Zhang; A. C. Cleland; D. J. Cleland; G. F. Serrallach

doi:10.1016/0140-7007(95)00082-8

A simple method for prediction of chilling times: Extension to three-dimensional irregular shapes

Lin Zhang, A. C. Cleland, D. J. Cleland, G. F. Serrallach

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

27 Citations (Scopus)

Abstract

The extension of a previously published empirical chilling time prediction method to three-dimensional irregular shapes was investigated. The real geometric shapes were related to equivalent ellipsoids using simple geometric measurements. Chilling time estimates were made using two shape-dependent parameters in conjunction with the first term in the series-analytical solution for convective cooling of a sphere. Experiments for eight geometric shapes (21 runs) were used to validate the model for thermal centre temperature predictions. The accuracy of the model for predicting mass-average temperatures of irregular shapes was not tested. Accurate chilling time prediction by a method employing only simple algebraic expressions is now possible for objects of any shape.

Original language	English
Pages (from-to)	107-114
Journal	International Journal of Refrigeration
Volume	19
Issue number	2
DOIs	https://doi.org/10.1016/0140-7007(95)00082-8
Publication status	Published - Feb 1996
Externally published	Yes

Research Keywords

Calculation
Chilling
Chilling time
Measurement
Simulation

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title = "A simple method for prediction of chilling times: Extension to three-dimensional irregular shapes",

abstract = "The extension of a previously published empirical chilling time prediction method to three-dimensional irregular shapes was investigated. The real geometric shapes were related to equivalent ellipsoids using simple geometric measurements. Chilling time estimates were made using two shape-dependent parameters in conjunction with the first term in the series-analytical solution for convective cooling of a sphere. Experiments for eight geometric shapes (21 runs) were used to validate the model for thermal centre temperature predictions. The accuracy of the model for predicting mass-average temperatures of irregular shapes was not tested. Accurate chilling time prediction by a method employing only simple algebraic expressions is now possible for objects of any shape.",

keywords = "Calculation, Chilling, Chilling time, Measurement, Simulation",

author = "Lin Zhang and Cleland, {A. C.} and Cleland, {D. J.} and Serrallach, {G. F.}",

year = "1996",

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T1 - A simple method for prediction of chilling times

T2 - Extension to three-dimensional irregular shapes

AU - Zhang, Lin

AU - Cleland, A. C.

AU - Cleland, D. J.

AU - Serrallach, G. F.

PY - 1996/2

Y1 - 1996/2

N2 - The extension of a previously published empirical chilling time prediction method to three-dimensional irregular shapes was investigated. The real geometric shapes were related to equivalent ellipsoids using simple geometric measurements. Chilling time estimates were made using two shape-dependent parameters in conjunction with the first term in the series-analytical solution for convective cooling of a sphere. Experiments for eight geometric shapes (21 runs) were used to validate the model for thermal centre temperature predictions. The accuracy of the model for predicting mass-average temperatures of irregular shapes was not tested. Accurate chilling time prediction by a method employing only simple algebraic expressions is now possible for objects of any shape.

AB - The extension of a previously published empirical chilling time prediction method to three-dimensional irregular shapes was investigated. The real geometric shapes were related to equivalent ellipsoids using simple geometric measurements. Chilling time estimates were made using two shape-dependent parameters in conjunction with the first term in the series-analytical solution for convective cooling of a sphere. Experiments for eight geometric shapes (21 runs) were used to validate the model for thermal centre temperature predictions. The accuracy of the model for predicting mass-average temperatures of irregular shapes was not tested. Accurate chilling time prediction by a method employing only simple algebraic expressions is now possible for objects of any shape.

KW - Calculation

KW - Chilling

KW - Chilling time

KW - Measurement

KW - Simulation

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U2 - 10.1016/0140-7007(95)00082-8

DO - 10.1016/0140-7007(95)00082-8

M3 - RGC 21 - Publication in refereed journal

SN - 0140-7007

VL - 19

SP - 107

EP - 114

JO - International Journal of Refrigeration

JF - International Journal of Refrigeration

IS - 2

ER -

A simple method for prediction of chilling times: Extension to three-dimensional irregular shapes

Abstract

Research Keywords

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