A COMPUTATIONAL STUDY OF THE DISTRIBUTION OF PARTICLES IN A LAB-SCALE CFB BOILER

机译：实验室规模CFB锅炉中颗粒物分布的计算研究

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When two-fluid modeling is used to predict riser flows there have been difficulties in predicting the solids hold up in risers represented by the correct pressure drop profile. A way of encountering this inherent problem in current Eulerian-Eulerian CFD modeling is to approximate the actual particle size distribution by using more particle phases instead of the current practice of using one mean diameter. For the lab-scale CFB investigated, CFD simulations show that a mal-distribution occurs in the CFB; the larger particles are retained in the riser, whereas the intermediate and small particles are distributed both in the return leg and the riser. Simulations using an altered particle size distribution, i.e. a larger amount of large particles, show significant improvements in the pressure profile in the bottom part of the riser.

机译：当使用双流体模型来预测立管流量时，很难预测以正确的压降曲线表示的固体在立管中的滞留量。在当前的Eulerian-Eulerian CFD模型中遇到此固有问题的一种方法是通过使用更多的粒子相来代替实际的平均直径来近似实际的粒度分布。对于所研究的实验室规模的CFB，CFD模拟表明CFB中发生了分布不均；较大的颗粒保留在立管中，而中小颗粒分布在回流管和立管中。使用改变的粒度分布即大量的大颗粒进行的模拟显示出提升管底部压力分布的显着改善。

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来源
《International conference on fuidization: New horizons in fluidization engineering; 20070513-18; Agassiz(CA)》|2007年|P.165-172|共8页
会议地点 Agassiz(CA)
作者
Kim Granly Hansen; Tron Solberg; Bjorn H. Hjertager;
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作者单位

Chemical Engineering Laboratory Aalborg University Esbjerg, DK-6700 Esbjerg, Denmark Dong Energy Generation, Project Development and Engineering DK-7000 Fredericia, Denmark;

Chemical Engineering Laboratory Aalborg University Esbjerg, DK-6700 Esbjerg, Denm;

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正文语种 eng
中图分类加工过程;
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入库时间 2022-08-26 13:45:34

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A COMPUTATIONAL STUDY OF THE DISTRIBUTION OF PARTICLES IN A LAB-SCALE CFB BOILER

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