Shreya Chouhan, Ajita Neogi, Hare K. Mohanta, Arvind Kumar Sharma, Navneet Goyal, Priya C. Sande
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引用次数: 0
摘要
该研究探讨了颗粒形状对气体旁路和气体流化 Geldart A 颗粒混合的影响。研究使用了台式配置的浅层流化床(FB)和数字图像分析仪(DIA)。示踪粒子在整个流化床中的散射程度是通过流化粉末的 DIA 图像进行评估的。使用 Jupyter 笔记本软件的新方法可直接从数字图像中确定混合指数。值得注意的是,血小板状的中国粘土粉末显示出最佳的混合特性(混合指数:0.79),没有明显的旁路现象。角形石英显示出中等程度的混合(混合指数:0.67),但旁通指数较高(旁通指数:0.75)。与传统假设相反,球形硅藻土的混合性较差(混合指数:0.61),旁通指数最高(旁通指数:0.82)。即使去除细粒,板状颗粒也表现良好。颗粒形状很可能会对可用颗粒接触点的数量、示踪剂迁移和示踪剂与颗粒的结合产生重大影响。
Digital image analysis of gas bypassing and mixing in gas-fluidized bed: Effect of particle shape
The study investigates effect of particle shape on gas bypassing and mixing of gas-fluidized Geldart A particles. A shallow fluidized bed (FB), configured at benchscale, was used with digital image analysis (DIA) for the investigation. The extent of scatter of tracer particles throughout the bed was assessed from DIA images of defluidized powder. A novel method employing Jupyter notebook software, was used to directly determine Mixing Index from digital images. Remarkably, platelet-shaped China clay powder displayed the best mixing characteristics (Mixing Index: 0.79) with no significant bypassing. Angular shaped Quartz displayed moderate mixing (Mixing Index: 0.67), but high bypassing (Bypassing Index: 0.75). Contrary to conventional assumptions, spherical-shaped diatomite exhibited poor mixing (Mixing Index: 0.61) with the highest bypassing (Bypassing Index: 0.82). Platelet particles performed well even with fines removal. Most likely, particle shape significantly influenced the number of available particle contact points, tracer migration, and traceronparticle binding.
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The AIChE Journal is the premier research monthly in chemical engineering and related fields. This peer-reviewed and broad-based journal reports on the most important and latest technological advances in core areas of chemical engineering as well as in other relevant engineering disciplines. To keep abreast with the progressive outlook of the profession, the Journal has been expanding the scope of its editorial contents to include such fast developing areas as biotechnology, electrochemical engineering, and environmental engineering.
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Biomolecular Engineering, Bioengineering, Biochemicals, Biofuels, and Food
Inorganic Materials: Synthesis and Processing
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Separations: Materials, Devices and Processes
Soft Materials: Synthesis, Processing and Products
Thermodynamics and Molecular-Scale Phenomena
Transport Phenomena and Fluid Mechanics.
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