Pore-scale lattice Boltzmann simulation of flow and mass transfer in bioreactor with an immobilized granule for biohydrogen production

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• 作者：Qiang Liao^a ; ^b ; ^{lqzx@cqu.edu.cn} ; Yan-Xia Yang^b ; Xun Zhu^a ; ^b ; Rong Chen^a ; ^b ; Qian Fu^a ; ^b
• 关键词：Lattice Boltzmann method ; Pore scale ; Immobilized granule ; Photo biohydrogen production
• 刊名：Science Bulletin
• 出版年：2017
• 出版时间：15 January 2017
• 年：2017
• 卷：62
• 期：1
• 页码：22-30
• 全文大小：3164 K
• 卷排序：62

文摘

The photo bioreaction combined with flow and mass transfer is simulated with pore-scale lattice Boltzmann (LB) method, which is the scenario of a bioreactor filled with a porous granule immobilized photosynthetic bacteria cells for hydrogen production. The quartet structure generation set (QSGS) is used to generate porous structure of the immobilized granule. The effects of porosity of the immobilized granule on flow and concentration fields as well as the hydrogen production performance are investigated. Higher porosity facilitates the substrate solution smoothly flowing through the porous granule with increasing velocity, and thus results in higher product concentration inside the immobilized granule. Additionally, the substrate consumption efficiency increases, while hydrogen yield slightly decreases with increasing porosity, and they tend to stable for the porosity larger than 0.5. Furthermore, the LB numerical results have a good agreement with the experimental results. It is demonstrated that the pore-scale LB simulation method coupling with QSGS is available to simulate the photo hydrogen production in the bioreactor with porous immobilized granules.