Modelling and experimental studies of rotating flows in part-filled vessels : wetting and peeling

  title={Modelling and experimental studies of rotating flows in part-filled vessels : wetting and peeling},
  author={K. S. Sujatha and Michael F. Webster and D. M. Binding and M. A. Couch}
The main purpose of this paper is to corroborate numerical modeling and experimental results for rotating flows with free-surfaces. This work is associated with dough-kneading and the validation of surface positions. Free surface flow in a rotating cylinder is investigated when a fluid is stirred in a cylindrical-shaped vessel with a stirrer attached to the lid of the vessel. The stirrer may be placed in either concentric or eccentric position with respect to the axis of the vessel. Both… CONTINUE READING


Publications referenced by this paper.
Showing 1-10 of 22 references

An experimental study of the peeling of dough from solid surfaces

  • M. A. Couch, D. M. Binding
  • J. Food Eng. (submitted)
  • 2001
1 Excerpt

Estimation and prediction of shear-rate distribution as a model mixer

  • S. Prakash, J. L. Kokini
  • J. Food Eng.,
  • 2000
1 Excerpt

Experimental Simulation of Dough Kneading

  • M. A. Couch, D. M. Binding
  • Rheology - XIII Int. Congress on Rheology BSR…
  • 2000
1 Excerpt

Experimental simulation of doughkneading

  • M. A. Couch, D. M. Binding
  • Int. Cong. On Rheol.,
  • 2000
2 Excerpts

The rheological basis of dough stickiness

  • B. J. Dobraszczyk
  • J. Texture Studies,
  • 1997
1 Excerpt

On computations of two and three-dimensional unsteady thermal non-Newtonian flows

  • D. Ding, P. Townsend, M F.Webster
  • Int. J. Num. Meth. Heat Fluid Flow,
  • 1995
1 Excerpt

A finite element approach for modeling metal flow and pressurized solidification in the squeeze casting process

  • D. T. Gethin, R. W. Lewis, M. R. Tadayon
  • Int. J. Numer. Meth. Eng.,
  • 1992
1 Excerpt