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选粉机分级环间距的优化 被引量:1

Optimization on Grading Ring Spacing Size of Classifier
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摘要 通过构建不同分级环间距的选粉机模型,利用计算流体动力学理论对SLK5500型选粉机不同分级环间距时的流场特性进行研究,得出最优的分级环间距,并对整机进行实验验证。结果表明,分级环间距过小,分级区内颗粒浓度较大,颗粒分散均匀性差,造成成品颗粒跑粗;分级环间距过大,分级区颗粒浓度较小,颗粒分散均匀性好,但进出口压差较大,能耗升高,且成品颗粒产率较低;当分级环间距为250 mm左右时,SLK5500型选粉机的分级性能最优。 By building the classifier model with different grading ring spacing sizes, the flow field characters of different grading ring spacing sizes in SLK5500 type classifier were studied according to the computational fluid dynamics(CFD) theory. The best grading ring spacing size was obtained and a test on the classifier was made. The results show that if grading ring spacing size is too small, the particle concentration of classification area is comparatively higher, which results in much coarser size particle of the products. If grading ring spacing size is too large, the particle concentration of classification area is comparatively lower, and the differential pressure between inlet and outlet is larger, which results in more energy consumption and less finished particle productivity. The SLK5500 type classifier shows the optimum classification performance if the grading ring spacing size is about 250 mm.
出处 《中国粉体技术》 CAS 北大核心 2013年第6期5-8,共4页 China Powder Science and Technology
基金 国家"十二五"科技支撑计划项目 编号:2011BAA04B04 国家火炬计划项目 编号:09C2621502330
关键词 选粉机 分级环间距 颗粒浓度 两相流 classifier grading ring spacing particle concentration two phase flow
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  • 1黎国华,吴刚,聂文平.涡轮分级机叶片间流动状态特性研究[J].矿山机械,2005,33(4):35-36. 被引量:8
  • 2马振华,张少明,陈永有.离心逆流式超细粉干式分级机的研制[J].南京化工学院学报,1995,17(1):91-94. 被引量:9
  • 3梅芳,张庆红,陆厚根.涡轮式气流分级机分级精度影响因素分析[J].粉体技术,1996,2(3):12-17. 被引量:7
  • 4盖国胜.超细粉碎分级技术[M].北京:中国轻工业出版社,2000..
  • 5刘家祥,徐德龙.高效节能涡流空气分级机:2382483[P].2000-06-14.
  • 6MORIMOTO H,SHAKOUCHI T.Classification of ultra fine powder by a new pneumatic type classifier[J].Powder Technology,2003,131(1):71-79.
  • 7JOHANSSON R,EVERTSSON M.An empirial study of a gravitational air classifier[J].Minerals Engineering,2012,31(3):10-16.
  • 8Feng yongguo,Liu jiaxiang,Liu shengzhao.Effects of operating parameters on flow flied in a turbo air classifier[J].Minerals Engineering.2008,21(8):598-604.
  • 9Yu Yuan,Liu Jiaxiang,Zhang Kai.Establishment of a prediction model for the cut size of turbo air classifiers[J].Powder Technology,2014,254(254):274-280.
  • 10Eswaraiah C,Narayanan S S,Jayanti S.A reduced efficiency approach-based process model for a circulating air classifier[J].Chemical Engineering and Processing:Process Intensification,2008,47(9/10):1887-1900.

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