Aerodynamic classification in a spiral jet mill

Viktor Rodnianski, Nir Krakauer, Khalil Darwesh, Avi Levy, Haim Kalman, Isabelle Peyron, Francois Ricard

Research output: Contribution to journalArticlepeer-review

36 Scopus citations


In a classical jet-mill, the particles that are forced by air into a circular motion are colliding with other particles as well as with the walls. Such collisions might break the particles thereby reducing the particle size. The air enters the mill at the periphery and exits at the center. The centrifugal and the drag forces are acting simultaneously on each particle in the grinding chamber. These forces define classification phenomenon between finer and coarser particles. For fine particles, the drag force towards the mill exit is larger than the centrifugal force and particles will move out the mill chamber with the air stream. In this research, experiments to define the cut size of particles were conducted. We also tested a number of parameters, such as air flow rate, nozzle angle and nozzle diameter. The classification equation requires knowledge of the radial air velocity and the tangential particle velocity. An extensive numerical investigation led to usable equations that take into account not only all of the above parameters but also the chamber mill diameter, the grinding chamber height, the classifier height, the outlet diameter and the number of nozzles. Inserting the numerical correlations into the force balance resulted in a practical and accurate classification equation. A comparison of the experimental and calculated results showed good agreement for dilute flows.

Original languageEnglish
Pages (from-to)110-119
Number of pages10
JournalPowder Technology
StatePublished - 1 Jul 2013


  • Classification
  • Fine particles
  • Jet mill
  • Milling
  • Modeling
  • Simulation

ASJC Scopus subject areas

  • General Chemical Engineering


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