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Shear rates investigation in a scraped surface heat exchanger |
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| Authors: | Jérôme Mabit Jack Legrand |
| Affiliation: | a GEPEA-UMR 6144 CNRS, ENITIAA, Université de Nantes, Ecole des Mines de Nantes, France b GEPEA-Ecole Nationale d'Ingénieurs des Techniques des Industries Agricoles et Alimentaires, Département Génie des Procédés Alimentaires, Rue de la Géraudière - BP 82225, 44322 Nantes Cedex 3, France c Université de Nantes, CRTT - BP 406, 44602 Saint Nazaire Cedex, France |
| Abstract: | The electrodiffusion technique was performed in order to investigate the shear rate on a scraped surface heat exchanger. Microelectrodes were placed inside: the walls of the outer cylinder; the inlet and outlet bowls; the rotor and the blades. Highly viscous Newtonian fluid (Emkarox HV45 solutions) and non-Newtonian model fluid (aqueous solutions of CMC) were used. The electrodiffusion method allowed us to measure wall shear rates. Maximum shear rate was observed at the scraping surface and caused by blades scraping, high shear rate was also measured on the leading edge of the blades. In the other parts of the exchanger, shear rate remained low but the development of Taylor vortices completely modified the scraped surface heat exchangers behaviour inside the surface of the bowls. A dimensionless representation of the friction factor was established for the inner and outer wall surface of the exchanger. |
| Keywords: | Electrochemistry Fluid mechanics Food processing Non-Newtonian fluids Scraped surface heat exchanger Taylor-Couette-Poiseuille flow |
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