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Liquid-solid Coupling Characteristics in the Fluidized Bed Evaporator for Tobacco Refined Liquid
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作者 Wang Feng-lan Yao Yuan-Jun +2 位作者 Gong Fa-Yun Ye Fang-Ping QI Wen-jie 《International Journal of Technology Management》 2014年第8期65-69,共5页
Consider a two-phase liquid-solid coupling effect, using Euler - Euler two-fluid model is solved using standard viscous term with k- e model and the velocity pressure coupling a simple algorithm to simulate liquid-sol... Consider a two-phase liquid-solid coupling effect, using Euler - Euler two-fluid model is solved using standard viscous term with k- e model and the velocity pressure coupling a simple algorithm to simulate liquid-solid two-phase flow characteristics of the fluid flow method bed, the applicability of the model to assess the drag. Different effects of a two-stage flow characteristics of fluidized bed flow characteristics, fluid and operating conditions affect the physical properties of the paper. We found from the simulation is the use of different drag coefficient models will greatly affect the results, which drag force model Syamlal - O' Brien is more suited to study the coupling characteristics of liquid flow in a fluidized bed of solid than Gidaspow. And velocity of the inert particles increase with the viscosity of the liquid increase. Further, the maximum speed of the inert particles in a fluidized bed by a central, which means the settling velocity in the fluidized bed of inert particles is the slowest; increasing liquid density and lead to increased speed of the inert particles; volume of the inert particles Score changes can also affect the speed of the particle velocity distribution, and there is no linear relationship. 展开更多
关键词 Fluidized bed liquid-solid coupling Tobacco refined liquid Numerical simulation
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Steady State Heat Transfer of Ladle Furnace During Steel Production Process 被引量:19
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作者 Unal Camdali Murat.Tun 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2006年第3期18-20,25,共4页
The heat transfer analysis was performed for an industrial ladle furnace (LF) with a capacity of 55-57 t in Turkey. The heat losses by conduction, convection and radiation from outer and bottom surfaces, top and ele... The heat transfer analysis was performed for an industrial ladle furnace (LF) with a capacity of 55-57 t in Turkey. The heat losses by conduction, convection and radiation from outer and bottom surfaces, top and electrodes of LF were determined in detail. Finally, some suggestions about decreasing heat losses were presented. 展开更多
关键词 heat transfer ladle furnace refining liquid steel
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