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International Journal of Food Properties Volume 4, 2001 - Issue 1
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Original Articles

THERMAL CONDUCTIVITY: LITERATURE DATA COMPILATION FOR FOODSTUFFS

M. K. Krokida Department of Chemical Engineering, National Technical University of Athens, Zografou Campus, Athens, 15780, GreeceCorrespondence[email protected]
,
N. M. Panagiotou Department of Chemical Engineering, National Technical University of Athens, Zografou Campus, Athens, 15780, Greece
,
Z. B. Maroulis Department of Chemical Engineering, National Technical University of Athens, Zografou Campus, Athens, 15780, Greece
&
G. D. Saravacos Department of Chemical Engineering, National Technical University of Athens, Zografou Campus, Athens, 15780, Greece
Pages 111-137 | Received 27 May 2000, Accepted 27 Aug 2000, Published online: 06 Feb 2007

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Inmaculada Gómez, Francisco C. Ibañez & María José Beriain. (2019) Physicochemical and sensory properties of sous vide meat and meat analog products marinated and cooked at different temperature-time combinations. International Journal of Food Properties 22:1, pages 1693-1708.
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James K. Carson. (2015) Thermal Conductivity Measurement and Prediction of Particulate Foods. International Journal of Food Properties 18:12, pages 2840-2849.
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James K. Carson. (2014) Measurement and Modelling of Thermal Conductivity of Sponge and Yellow Cakes as a Function of Porosity. International Journal of Food Properties 17:6, pages 1254-1263.
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M.Q. Chen, L. Jia & T.T. Zhang. (2012) Evaluation of Heat Transfer Coefficient During Drying of Typical Municipal Solid Waste Matrices with Significant Shrinkage at Medium Temperature. Experimental Heat Transfer 25:3, pages 238-253.
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Alpaslan Turgut, Ismail Tavman & Sebnem Tavman. (2009) Measurement of Thermal Conductivity of Edible Oils Using Transient Hot Wire Method. International Journal of Food Properties 12:4, pages 741-747.
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K.C. Kavvadias, V.Z. Maroulis, M.K. Krokida & M.S. Rahman. (2009) Development of a Versatile Database for Transport Properties of Foods. International Journal of Food Properties 12:3, pages 522-535.
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H. Kocabiyik, B. Kayisoglu & D. Tezer. (2009) Effect of Moisture Content on Thermal Properties of Pumpkin Seed. International Journal of Food Properties 12:2, pages 277-285.
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P.V.K. Jagannadha Rao, Madhusweta Das & S.K. Das. (2008) Thermophysical Properties of Sugarcane, Palmyra Palm, and Date-palm Granular Jaggery. International Journal of Food Properties 11:4, pages 876-886.
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Prabhat Kumar, Pablo Coronel, Josip Simunovic & K.P. Sandeep. (2008) Thermophysical and Dielectric Properties of Salsa Con Queso and its Vegetable Ingredients at Sterilization Temperatures. International Journal of Food Properties 11:1, pages 112-126.
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Ch. J. Boukouvalas, M.K. Krokida, Z.B. Maroulis & D. Marinos-Kouris. (2006) Density and Porosity: Literature Data Compilation for Foodstuffs. International Journal of Food Properties 9:4, pages 715-746.
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W. Phomkong, G. Srzednicki & R.H. Driscoll. (2006) Thermophysical Properties of Stone Fruit. Drying Technology 24:2, pages 195-200.
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Z.B. Maroulis, G.D. Saravacos, M.K. Krokida & N.M. Panagiotou. (2002) THERMAL CONDUCTIVITY PREDICTION FOR FOODSTUFFS: EFFECT OF MOISTURE CONTENT AND TEMPERATURE. International Journal of Food Properties 5:1, pages 231-245.
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M. K. Krokida, P. A. Michailidis, Z. B. Maroulis & G. D. Saravacos. (2002) LITERATURE DATA OF THERMAL CONDUCTIVITY OF FOODSTUFFS. International Journal of Food Properties 5:1, pages 63-111.
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Serpil Sahin & Servet Gülüm Sumnu. 2006. Physical Properties of Foods. Physical Properties of Foods 107 155 .
Shyam S Sablani & M.Shafiur Rahman. (2003) Using neural networks to predict thermal conductivity of food as a function of moisture content, temperature and apparent porosity. Food Research International 36:6, pages 617-623.
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