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Don Cleland
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A new approach to modelling the effective thermal conductivity of heterogeneous materials
J Wang, JK Carson, MF North, DJ Cleland
International journal of heat and mass transfer 49 (17-18), 3075-3083, 2006
6412006
A new structural model of effective thermal conductivity for heterogeneous materials with co-continuous phases
J Wang, JK Carson, MF North, DJ Cleland
International journal of heat and mass transfer 51 (9-10), 2389-2397, 2008
2832008
Effects of freezing and temperature fluctuations during frozen storage on frozen dough and bread quality
Y Phimolsiripol, U Siripatrawan, V Tulyathan, DJ Cleland
Journal of Food Engineering 84 (1), 48-56, 2008
1862008
Reducing gas exchange of fruits with surface coatings
NH Banks, BK Dadzie, DJ Cleland
Postharvest biology and technology 3 (3), 269-284, 1993
1801993
Modelling the performance of a transcritical CO2 heat pump for high temperature heating
SD White, MG Yarrall, DJ Cleland, RA Hedley
International Journal of Refrigeration 25 (4), 479-486, 2002
1362002
Proposal for a rationalized system of units for postharvest research in gas exchange
NH Banks, DJ Cleland, AC Cameron, RM Beaudry, AA Kader
HortScience 30 (6), 1129-1131, 1995
1291995
Determination of lower oxygen limits for apple fruit
CW Yearsley, NH Banks, S Ganesh, DJ Cleland
Postharvest biology and technology 8 (2), 95-109, 1996
981996
Development of oxygen concentration gradients in flesh tissues of bulky plant organs
NC Rajapakse, NH Banks, EW Hewett, DJ Cleland
Journal of the American Society for Horticultural Science 115 (5), 793-797, 1990
951990
Prediction of freezing and thawing times for multi-dimensional shapes by simple formulae Part 1: regular shapes
DJ Cleland, AC Cleland, RL Earle
International Journal of Refrigeration 10 (3), 156-164, 1987
821987
Weight loss of frozen bread dough under isothermal and fluctuating temperature storage conditions
Y Phimolsiripol, U Siripatrawan, DJ Cleland
Journal of Food Engineering 106 (2), 134-143, 2011
782011
Prediction of freezing and thawing times for multi-dimensional shapes by numerical methods
DJ Cleland, AC Cleland, RL Earle, SJ Byrne
International Journal of Refrigeration 10 (1), 32-39, 1987
711987
Prediction of freezing and thawing times for multi-dimensional shapes by simple formulae part 2: irregular shapes
DJ Cleland, AC Cleland, RL Earle
International Journal of Refrigeration 10 (4), 234-240, 1987
651987
Prediction of thawing times for foods of simple shape
DJ Cleland, AC Cleland, RL Earle, SJ Byrne
International journal of refrigeration 9 (4), 220-228, 1986
621986
Prediction of freezing time and design of food freezers
DJ Cleland, KJ Valentas
Handbook of food engineering practice, 1997
571997
Prediction of freezing and thawing times for foods of three-dimensional irregular shape by using a semi-analytical geometric factor
MM Hossain, DJ Cleland, AC Cleland
International Journal of Refrigeration 15 (4), 241-246, 1992
571992
Changes in respiration and ethylene production of apples in response to internal and external oxygen partial pressures
BK Dadzie, NH Banks, DJ Cleland, EW Hewett
Postharvest biology and technology 9 (3), 297-309, 1996
561996
Prediction of freezing and thawing times for foods of regular multi-dimensional shape by using an analytically derived geometric factor
MM Hossain, DJ Cleland, AC Cleland
International Journal of Refrigeration 15 (4), 227-234, 1992
531992
An empirical model for predicting air infiltration into refrigerated stores through doors
P Chen, DJ Cleland, SJ Lovatt, MR Bassett
International Journal of refrigeration 25 (6), 799-812, 2002
512002
Heat pump heat recovery options for food industry dryers
JF Wang, C Brown, DJ Cleland
International Journal of Refrigeration 86, 48-55, 2018
492018
Prediction of rates of freezing, thawing or cooling in solids or arbitrary shape using the finite element method
DJ Cleland, AC Cleland, RL Earle, SJ Byrne
International journal of refrigeration 7 (1), 6-13, 1984
471984
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