Optimization Design of Rapid-Cooling Mixer of By-Pass System of Cement Production Based on CFD

Ya Mao; Wei Fu; Zuo Bing Chen

doi:10.4028/www.scientific.net/AMM.670-671.814

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 670-671Optimization Design of Rapid-Cooling Mixer of...

Optimization Design of Rapid-Cooling Mixer of By-Pass System of Cement Production Based on CFD

Abstract:

In the situation that energy is increasingly grim, how to use high-sulfur fuel effectively and reasonably is a big problem for high-energy consumption cement industry. But high-sulfur fuel will also brought up crusting problem because of higher concentration of circulating and accumulating volatile components. By-pass system can resolve this problem. Rapid-cooling mixer is key equipment for by-pass system. The thermal flow field inside the mixer determines the performance of rapid-cooling mixer directly. CFD method is used to simulate the flow field and temperature field inside mixer. The simulation result help to guide and test the improvement of mixer structure design. After optimization structure design, the mixing of hot gas and cooling air is full and strong inside mixer that leads to excellent cooling effect and good protection for equipment from crusting.

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Periodical:

Applied Mechanics and Materials (Volumes 670-671)

Pages:

814-818

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.670-671.814

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Online since:

October 2014

Authors:

Ya Mao, Wei Fu, Zuo Bing Chen

Keywords:

Cement Production, CFD, Flow Field Simulation, Optimization Design

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References

[1] Chen Zuobing, Chen Siwei, Dou Haijian, Simulation of Flow of Five Lever Cyclone Preheater[J], Journal of Wuhan University of Technology, 2005(05): 56- 58.

DOI: 10.1007/bf02838501

Google Scholar

[2] Liu Shuyan, Zhang Ya, Wang Baoguo, Use RSM to Simulate Turbulence Flow of Cyclone Seperator[J], Journal of Beijing Institute of Technology, 2005(5): 377- 379.

Google Scholar

[3] Hu Yuan, Shi Mingxian, Zhou Lixing, 3D Simulation of Strong Turbulence Flow in Cyclone Seperator[J], Journal of Tsinghua University (NATURAL SCIENCE EDITION), 2004(11): 1501- 1505.

Google Scholar

[4] Li Wendong, Wang Lianze, Simulation Methods and Analysis of Flow inside CycloneSeperator[J]. Environmental Engineering, 2004(2): 37- 40.

Google Scholar

[5] He Jingxiang, By-pass Mathematical Model and Calculation Program[J], Cement Technology, 1998(3): 21-25.

Google Scholar

[6] Zhang Dakang, By-pass Equipment of Cement Factory, Cement Technology, 2006(4): 14-18.

Google Scholar