Comparative study on mixing characteristics of different structures based on dynamic simulation

Qilin Yang; Huakang Li; Fenglong Yin; Kun Liu; Xinyi Zhang

doi:10.1117/12.3007274

25 October 2023 Comparative study on mixing characteristics of different structures based on dynamic simulation

Qilin Yang, Huakang Li, Fenglong Yin, Kun Liu, Xinyi Zhang

Proceedings Volume 12801, Ninth International Conference on Mechanical Engineering, Materials, and Automation Technology (MMEAT 2023); 128013I (2023) https://doi.org/10.1117/12.3007274
Event: Ninth International Conference on Mechanical Engineering, Materials, and Automation Technology (MMEAT 2023), 2023, Dalian, China

Abstract

The slurry used in the construction industry has important research value. According to the increasing uniformity requirement, the development status of slurry mixing technology has received more attention and analysis. Furthermore, the comparative study of different mixing structures based on dynamic simulation has been proposed and studied. Firstly, the characteristics of mixing structure is analyzed and the uniformity of slurry is characterized. Secondly, a threedimensional model of the simulation and analysis of the stirring blade is established. Then, the dynamic calculation and analysis are carried out based on the typical stirring process theory. Finally, the structural characteristics of different stirring blades is compared through actual simulation analysis, and the results could show which structure is optimal. The results prove that the bi-axial mixing structure has the characteristics of high stirring efficiency and low deposition degree, which can be suitable for the pulping process in the sealed environment.

(2023) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Qilin Yang, Huakang Li, Fenglong Yin, Kun Liu, and Xinyi Zhang "Comparative study on mixing characteristics of different structures based on dynamic simulation", Proc. SPIE 12801, Ninth International Conference on Mechanical Engineering, Materials, and Automation Technology (MMEAT 2023), 128013I (25 October 2023); https://doi.org/10.1117/12.3007274

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