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Direct numerical simulation of the drag, lift, and torque coefficients of high aspect ratio biomass cylindrical particles

Jingliang Wang, Lun Ma, Maoqiang Jiang, Qingyan Fang, Chungen Yin, Peng Tan, Cheng Zhang, Gang Chen

2024Physics of Fluids32 citationsDOIOpen Access PDF

Abstract

Biomass straw fuel has the advantage of low-carbon sustainability, and therefore, it has been widely used in recent years in coupled blending combustion with coal-fired utility boilers for power generation. At present, the drag force FD, the lift force FL, and the torque T evaluation model are very limited. In this study, within a wide range of Reynolds numbers (10 ≤ Re ≤ 2000) and incident angles (0° ≤ θ ≤ 90°), the computational fluid dynamics open source code OpenFOAM-body-fitted mesh method is used to carry out the direct numerical simulation of the flow characteristics of large cylindrical biomass particles with a high aspect ratio of L/D = 9:1. The results show that (1) the projected area of the cylinder begins to decrease after reaching the maximum at θ = 15°, while the change in the incident angle causes the formation of a smaller recirculation zone on the leeward side of the structure, and the effect of the pressure difference on the drag coefficient (CD) is reduced. (2) The lift coefficient (CL) displays a parabolic symmetric distribution when θ = 45°, and then the distribution becomes asymmetrical when Re > 100. The torque coefficient (CT) exhibits a similar trend. (3) Based on the simulation data and the literature data, new models for CD, CL, and CT for cylinders with L/D = 9:1, 10 ≤ Re ≤ 2000 and 0° ≤ θ ≤ 90° are obtained, and the mean square errors are 2.4 × 10−2, 1.4 × 10−2, and 6.4 × 10−2, respectively. This new model can improve the accuracy and adaptability of the universal model of gas–solid dynamics for biomass particles.

Topics & Concepts

PhysicsDragMechanicsTorqueLift (data mining)Drag coefficientLift-to-drag ratioComputer simulationLift coefficientAerospace engineeringClassical mechanicsReynolds numberTurbulenceThermodynamicsComputer scienceEngineeringData miningGranular flow and fluidized bedsParticle Dynamics in Fluid FlowsFluid Dynamics and Heat Transfer