基于Fluent软件,采用标准的k-ε湍流模型、欧拉-欧拉多相流模型、多重参考系稳态流动方法,对浸出槽内固液两相流动过程进行数值模拟研究,且采用示踪剂法研究流体在槽内停留时间的分布.将临界离底悬浮转速的数值模拟结果与Zwietering临界转速进行比较,两者吻合较好,验证模型的有效性.应用数值模拟方法研究桨叶离底高度、桨叶间距和阻尼板高度对槽内固相浓度分布和浸出液平均停留时间的影响规律.结果表明:在一定范围内,增大桨叶间距有利于固相分布均匀,延长浸出液的平均停留时间,从而促进固液相之间的传质扩散,当桨叶间距为2D(D为浸出槽直径)时,效果较优;在一定范围内,增大阻尼板高度有利于槽内固相的上浮;在允许范围内,降低桨叶离底高度有利于改善槽底沉积现象,增大浸出液的平均停留时间,当桨叶离底高度为0.3D时,效果较好.
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