Abstract
The geometry of vessels has a significant influence on granular flow. In this study, discrete element method is used to simulate the flow behavior of granular materials in curved hoppers. The results confirm that curved hoppers can achieve a higher discharge rate than conical hoppers, accompanying with a large converging flow region. The macro and microscopic characteristics such as flow and force structures are analysed in detail, revealing that the hopper curves causes the preferred flow direction of granular materials to the central region and the converging flow near the orifice is more developed, leading a higher particle velocity. The observation of flow patterns developed in hoppers shows that the affected region by the curves only occurs at the bottom, and the transition height from the mass flow to the converging flow increases with the curves deviating from the conical.
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