CFD Intensification of Coal Beneficiation Process in Gas-solid Fluidized Beds
coal beneficiation,CFD simulation,particles dynamics,scale-up of bed
(9)能源资源清洁加工与转化 > 1. 矿物分选过程强化
摘要录用
勇 张 / 中国科学院过程工程研究所
晨龙 段 / 中国矿业大学
Coal beneficiation technology using gas-solid fluidized bed is a hot topic in recent decades, however its proper design and scale-up remains a great challenge due to the very complex gas-solid flow involved. To this end, an Eulerian-Lagrangian-Lagrangian (ELL) model (Zhang et al., Renewable Energy, 2019, 136:193-201) was used to intensify the coal beneficiation process, by systematically studying the effects of particle properties, operation gas velocity, initial bed height, design of gas distributor and the size of fluidized beds. It was found that (i) coal beneficiation process can be improved significantly by using coarser beneficiated coal particles, adopting smaller initial bed height (or shallow fluidized bed) and/or operating at a properly selected gas velocity, all findings indicate that the process intensification can be realized via proper selection of operating conditions; (ii) the design of gas distributor was critical for process intensification and it should be designed properly to achieve as uniformly as possible gas flow; and (iii) there will be no scale-up effect, if uniform gas flow at the inlet can be achieved. Present study demonstrates computational fluid dynamics is a cost-effective tool for process intensification of gas-solid fluidized beds.