Solid-liquid rotary kilns: An experimental and CFD-DEM study

Abstract

Experiments for the validation of unresolved CFD-DEM software for solid–liquid flows are often expensive, time consuming and generally provide little insight into the local particles dynamics. Additionally, several DEM parameters such as the particle surface properties are often obtained from experiments in air and used for all CFD-DEM simulations even when the fluid is a liquid. We design and perform a simple and time efficient gas–solid and liquid–solid rotary kiln benchmark for the purpose of creating a validation case for unresolved CFD-DEM software which we use to validate the unresolved CFD-DEM model of the open-source software Lethe. This case, which contains dense solid–solid contacts and strong solid–fluid forces gives insight on the importance of proper calibration of DEM surface properties in solid–liquid flows as well as on the importance of the lift force. Furthermore, it is highly sensitive to the accuracy of the CFD discretization.