Numerical simulation of a dense solid particle flow inside a cyclone separator using the hybrid Euler-Lagrange approach 被引量：14

Numerical simulation of a dense solid particle flow inside a cyclone separator using the hybrid Euler-Lagrange approach

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摘要 This paper presents a numerical simulation of the flow inside a cyclone separator at high particle loads. The gas and gas–particle flows were analyzed using a commercial computational fluid dynamics code. The turbulence effects inside the separator were modeled using the Reynolds stress model. The two phase gas–solid particles flow was modeled using a hybrid Euler–Lagrange approach, which accounts for the four-way coupling between phases. The simulations were performed for three inlet velocities of the gaseous phase and several cyclone mass particle loadings. Moreover, the influences of several submodel parameters on the calculated results were investigated. The obtained results were compared against experimental data collected at the in-house experimental rig. The cyclone pressure drop evaluated numerically underpredicts the measured values. The possible reason of this discrepancies was disused. This paper presents a numerical simulation of the flow inside a cyclone separator at high particle loads. The gas and gas–particle flows were analyzed using a commercial computational fluid dynamics code. The turbulence effects inside the separator were modeled using the Reynolds stress model. The two phase gas–solid particles flow was modeled using a hybrid Euler–Lagrange approach, which accounts for the four-way coupling between phases. The simulations were performed for three inlet velocities of the gaseous phase and several cyclone mass particle loadings. Moreover, the influences of several submodel parameters on the calculated results were investigated. The obtained results were compared against experimental data collected at the in-house experimental rig. The cyclone pressure drop evaluated numerically underpredicts the measured values. The possible reason of this discrepancies was disused.

作者 Pawel Kozolub Adam Klimanek Ryszard A. Bialecki Wojciech P. Adamczyk

机构地区 Institute of Thermal Technology AMEC Foster Wheeler Energia Polska

出处《Particuology》 SCIE EI CAS CSCD 2017年第2期170-180,共11页 颗粒学报（英文版）

关键词 Cyclone separator Two-phase flow Solid particle transport Computational fluid dynamics Hybrid Euler-Lagrange Cyclone separator Two-phase flow Solid particle transport Computational fluid dynamics Hybrid Euler-Lagrange

分类号 O [理学]

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