Although not all researchers believe that the results obtained from calculating fluid dynamics (CFD) is reliable, it is most cost-effective design process by comparing the relative performances of different alternatives. Commercial CFD package is employed to assist the design. Based on the CFD simulation results, the geometry and dimension of the prototypes were decided. CFD simulation indicated that the pressure drop was about 160 Pa when the average inlet air velocity was 8.5 m/s. This result agreed well with experimental results. Conceptual design showed that the cut size could reach 13 micrometers, and the CFD model showed high dust collection efficiencies for small particles. The actual collection efficiency would be a little bit lower than the theoretical value. The laboratory tests of preliminary prototypes showed that the cut size was bellow 40 micrometers for the testing particles and the pressure drop was about 160 Pa at target operation velocity. Field tests indicated that the mass collection efficiency was over 70%. Based on data obtained from the preliminary tests, full scale prototype is in development.