Vertical roller mill is a machine that combines grinding, transporting and classification of material. Due to its excellent working ability the machine is widely used in various industries such as power plant, cement industry and chemical industry.The alteration and upgrading of vertical roller mill involve multiple physics problem,where in this paper we only focus on the flow field .We conducted a parameter analysis for the vertical roller mill by using a commercial CFD software ANSYS FLUENT. Wepredicted the flow field and particle motion by solving the following governing equations in each cells. Solving the RNG k-ε Model to realize the turbulent flow inside the channel. Solving the Discrete Phase Model (DPM) to visualize the trajectories of particles. Solving a different form of Navier-Stokes equations which are rewritten by the Multiple Rotating Reference Frame (MRF) or by the Sliding Mesh Method (SMM) to predict the flow motion caused by the rotating machine. There are two major purposes in this paper: One is to improve the efficiency in the transportation of fine particles. The other is to predict the cut-off size of particle product that comes from the air classifier. We achieved the first purpose by the following procedure: solving the coupling of flow model that is based on MRF and RNG k-ε Model to obtain a steady state solution of flow field, and then inject the particles into this steady flow to calculate the particle motion by DPM. The information from the DPM calculation would indicate the efficiency of particle transportation. We changed the geometry of the physical model in order to establish a parameter analysis of vertical roller mill, and we achieved the second purpose by solving the coupling of flow model that is based on SMM, RNG k- ε Model, and DPM. Therefore, we are able to successfully model the powder classification process by numerical simulation.