Thermal performance of a flat ohmic cell under non-fouling and whey protein fouling conditions
- 作者:M.A. Ayadi ; T. Benezech ; F. Chopard ; M. Berthou
- 关键词:Ohmic heating ; Dairy products ; Temperature field ; Rheology and fouling
- 刊名:Lebensmittel-Wissenschaft und -Technologie
- 出版年:2008
- 期刊代码:121_00236438
- 类别:abs
- 出版时间:July 2008
- 卷:41
- 期:6
- 页码:1073-1081
- 文件大小:403 K
摘要
Temperature gradients, between electrode surfaces and bulk, in a continuous flat ohmic cell under whey protein fouling were studied. The temperature profiles in non-fouled cell were studied using two Newtonian fluids (water and an aqueous solution of sucrose at 55 g/100 g) and a pseudoplastic fluid (an aqueous solution of xanthan gum at 0.2 g/100 g). The temperature gradients were studied using two fouling fluids: an aqueous solution of β-lactoglobulin and an aqueous solution of β-lactoglobulin–xanthan gum mixture. Obtained result shows the existence of a temperature difference between electrode surfaces and the bulk when heating non-fouling fluids. The value and the shape of these gradients depend on the Reynolds number and the rheological behavior of the fluid. Under fouling conditions, the temperature gradient obtained at different Reynolds number exhibit a different trend. These differences could be explained by the effect of differential electrical conductivities between the bulk and the deposit, and the balance between heat generation by electrical power dissipation and thermal loss by convection (with the fluid) and conduction (with the electrode surfaces).