Numerical investigation of the effects of the face velocity on ceramic candle filter was executed in three-dimensional turbulent flow field. It was found that the pressure drop in the filter media depends linearly on the face velocity. It was also fou...
Numerical investigation of the effects of the face velocity on ceramic candle filter was executed in three-dimensional turbulent flow field. It was found that the pressure drop in the filter media depends linearly on the face velocity. It was also found that the radial momentum on the axial length of the filter(x/d≥20) changes with the second order polynomial function.