For my thesis I am dealing with dense phase transportation of powder and I would like to have an overview about the turbulences and segregation inside a pipe at dense phase transport of dry cement powder.

For transportation velocities of about 10 meters per second (about 30 ft per second) a volume ratio of 30% dry powder to 70% of air occurs in a 7 centimeter (2.8 inch) pipe.

Seeing the pipe in cross-section, particles of the inner "layers" move faster than particles of outer layers.

My question now is: Are particles, located in an outer layer inside the pipe, a few feet later in the pipe still located in an outer radius or are they now at a totally different position? In other words, if I would mark powdery particles in different positions of the pipe's cross-section, are they still at the same (similar) position in the cross-section a little bit later in the pipe?

Are there any formulas (maybe related to formulas in the hydrodynamics??), models or software solutions to simulate the dense phase flow of the powder at different conditions?

Is there any database (or knowledge) available about the properties of dry cement powder and the flow properties of the powder in a pipe (friction, flow function, stress,...)?

Thanks a lot in advance and best regards

Anton Fuchs ■