Rheology and Hydrodynamics of Iron Ore Mineral Pulps during a Bioleaching Process in a Continuous Stirred-Tank Reactor

Luis Antonio Ramirez-Torres; Luis Medina-Torres; Fausto Calderas

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Rheology and Hydrodynamics of Iron Ore Mineral Pulps during a Bioleaching Process in a Continuous Stirred-Tank Reactor

机译：连续搅拌罐反应器中生物浸出过程中铁矿石矿浆的流变学和流体动力学

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The rheological response and the computational hydrodynamic continuous stirred-tank behavior were analyzed to increase the understanding of the bioleach-ing process in mineral pulps. The rheological properties of the mineral pulps showed that a smaller particle size increases the magnitude of the rheological parameters, shortens the bioleaching process time, and, indirectly, increases the concentration of bacteria in the medium, thus augmenting the gel strength. The bioreactor hydrodynamics results revealed that the best dual-impeller configuration corresponds to a Rushton (top)/Maxflo (bottom) configuration, generating power savings of ～9 %. Finally, when analyzing apparent viscosity maps, velocity fields, and streamlines at different stirring speeds, enhanced hydrodynamic conditions were observed at 400 rpm.

机译：流变响应计算水动力连续搅拌釜的行为分析了增加的理解bioleach-ing进程矿产纸浆。流变特性的矿产纸浆表明一个更小的粒径增加级的流变参数,缩短bioleaching过程时间,间接地增加细菌的浓度介质,从而增加胶凝强度。生物反应器流体力学结果显示最好的dual-impeller配置对应拉什顿(上)/ Maxflo(底部)配置,~ 9%的发电储蓄。表观粘度地图,分析速度在不同的搅拌字段和流线速度,增强水动力条件观察到在400 rpm。

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《Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology》 |2023年第4期|670-680|共11页
作者
Luis Antonio Ramirez-Torres; Luis Medina-Torres; Fausto Calderas;
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作者单位

Universidad Nacional Autonoma de Mexico, Instituto de Investi- gaciones en Materiales, 04510 Ciudad de Mexico, Mexico;

Universidad Nacional Autonoma de Mexico, Facultad de Quimica, 04510 Ciudad de Mexico, Mexico;

Universidad Nacional Autonoma de Mexico, Facultad de Estudios Superiores-Zaragoza, Batalla 5 de mayo S/N, 09230, Ciudad de Mexico, Mexico;

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正文语种英语
中图分类化学工业;
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Rheology and Hydrodynamics of Iron Ore Mineral Pulps during a Bioleaching Process in a Continuous Stirred-Tank Reactor

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