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Rheological Characteristics of Ice Slurries Based on Propylene- and Ethylene-Glycol at High Ice Fractions

descriptionPublicationkeyboard_double_arrow_right Article 04 Jan 2017 English Publisher:Zenodo
Authors: Senda Trabelsi; Poncet, Sébastien; Poirier, Michel;

doi: 10.5281/zenodo.1128957 , 10.5281/zenodo.1128956

Rheological Characteristics of Ice Slurries Based on Propylene- and Ethylene-Glycol at High Ice Fractions

Abstract

{"references": ["B\u00e9d\u00e9carrats, J. P. (2010). Utilisation rationnelle de l'\u00e9nergie par les techniques de stockage et de transport du froid par chaleur latente, Habilitation dissertation, Universit\u00e9 de Pau et des Pays de l'Adour.", "Kauffeld, M., Wang, M. J., Goldstein, V., & Kasza, K. E. (2010). Ice slurry applications. International Journal of Refrigeration, 33(8), 1491-1505.", "Egolf, P. W., & Kauffeld, M. (2005). From physical properties of ice slurries to industrial ice slurry applications. International Journal of Refrigeration, 28(1), 4-12.", "Niezgoda-\u017belasko, B., & Zalewski, W. (2006). Momentum transfer of ice slurry flows in tubes, experimental investigations. International Journal of Refrigeration, 29(3), 418-428.", "Boumaza, M. (2009). Experimental Investigation of Rheological Characteristics of Ice Slurry. In ICF12, Ottawa.", "Metzner, A. B. (1985). Rheology of suspensions in polymeric liquids. Journal of Rheology, 29(6), 739-775.", "Mellari, S., Boumaza, M., & Egolf, P. W. (2012). Physical modeling, numerical simulations and experimental investigations of Non-Newtonian ice slurry flows. International Journal of Refrigeration, 35(5), 1284-1291.", "Barnes H. A. and Carnali J. O. (1990) The vane-in-cup as a novel rheometer geometry for shear thinning and thixotropic materials Journal of Rheology. 34, 841-866.", "Barnes A. B., Nguyen Q. D. (2001) Rotating Vane Rheometry - A Review, J. Non-Newtonian Fluid Mech. 98 1-14\n[10]\tLiddell P. V. and Boger D. V. (1996) Yield stress measurement with the vane, J. Non-Newtonian Fluid Mech. 63, 235-261\n[11]\tTurian R. M., Ma T. W., Hsu F. L. G., Sung D. J. (1997) Characterization, settling, and rheology of concentrated fine particulate mineral slurries Powder Tech. 93, 219-233\n[12]\tZhang X. D., Giles D. W., Barocas V. H., Yasunaga K., and Macosko C.W. (1998) Measurement of foam modulus via a vane rheometer, Journal of Rheology. 42(4), 871-889.\n[13]\tBen Lakhdar, M.A., (1998). Comportement thermohydraulique d'un fluide frigoporteur diphasique: le coulis de glace, Etude th\u00e9orique et exp\u00e9rimentale, Ph.D. thesis. INSA, Lyon, France.\n[14]\tGuilpart, J., Fournaison, L., Lakhdar, M. B., Flick, D., & Lallemand, A. (1999). Experimental study and calculation method of transport characteristics of ice slurries, Proceedings of the First Workshop on Ice Slurries of the International Institute of Refrigeration, Yverdon-les-Bains, Switzerland; 27\u201328 May 1999. p. 74\u201382.\n[15]\tMellari, S. (2016). Experimental investigations of ice slurry flows in horizontal pipe based on monopropylene glycol. International Journal of Refrigeration, 65, 27-41. \n[16]\tKitanovski, A., Vuarnoz, D., Ata-Caesar, D., Egolf, P. W., Hansen, T. M., & Doetsch, C. (2005). The fluid dynamics of ice slurry. International Journal of Refrigeration, 28(1), 37-50.\n[17]\tLippmann RP (1987) An introduction to computing with neural nets. ASSP Mag IEEE 4(2), 4\u201322\n[18]\tDemuth H, Beale M, Hagan M (2007) Neural network toolbox 5,user's guide. The MathWorks Inc, Natick.\n[19]\tErkaymaz, O., \u00d6zer, M., & Yumu\u015fak, N. (2012). Performance Analysis of a Feed-Forward Artifical Neural Network with Small-World Topology. Procedia Technology, 1, 291-296.\n[20]\tLa\u00efdi, M., & Hanini, S. (2012). Approche neuronale pour l'estimation des transferts thermiques dans un fluide frigoporteur diphasique. Revue des Energies Renouvelables, 15(3), 513-520.\n[21]\tGoudarzi, K., Moosaei, A., & Gharaati, M. (2015). Applying artificial neural networks (ANN) to the estimation of thermal contact conductance in the exhaust valve of internal combustion engine. Applied Thermal Engineering, 87, 688-697."]}

Ice slurries are considered as a promising phase-changing secondary fluids for air-conditioning, packaging or cooling industrial processes. An experimental study has been here carried out to measure the rheological characteristics of ice slurries. Ice slurries consist in a solid phase (flake ice crystals) and a liquid phase. The later is composed of a mixture of liquid water and an additive being here either (1) Propylene-Glycol (PG) or (2) Ethylene-Glycol (EG) used to lower the freezing point of water. Concentrations of 5%, 14% and 24% of both additives are investigated with ice mass fractions ranging from 5% to 85%. The rheological measurements are carried out using a Discovery HR-2 vane-concentric cylinder with four full-length blades. The experimental results show that the behavior of ice slurries is generally non-Newtonian with shear-thinning or shear-thickening behaviors depending on the experimental conditions. In order to determine the consistency and the flow index, the Herschel-Bulkley model is used to describe the behavior of ice slurries. The present results are finally validated against an experimental database found in the literature and the predictions of an Artificial Neural Network model.

Keywords

artificial neural network., propylene-glycol, rheology, ethylene-glycol, Ice slurry

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