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Research Article | Publishing Language: Chinese | Open Access

Turbulent air chamber control and dry purification collaborative control technology and equipment development for dust removal in fully mechanized excavation face

Wei FU1Haizhou SONG1( )Xiaofei CHEN2Zhenguo ZHANG1Chuanliang XU1Qu LIU1Xiangyan ZHANG3
Yankuang Energy Group Co., Ltd., Zoucheng Shandong 273500, China
Dongtan Coal Mine, Yankuang Energy Group Co., Ltd., Jining Shandong 273512, China
School of Safety and Environmental Engineering, Shandong University of Science and Technology, Qingdao Shandong 266590, China
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Abstract

This study proposes a turbulent air chamber control and dry purification collaborative control technology for dust removal as a solution to the dust pollution in the Yunshun fully mechanized excavation face 6307 of Dongtan Coal Mine. We compared the conditions of press-in ventilation and pressure-extraction hybrid ventilation through numerical simulation. Results show that the average dust concentration at the height of the breathing zone under single-pressure ventilation could reach 2478.4 mg/m3, posing serious threat to the health of the equipment operators. Dust concentration was significantly reduced under pressure-extraction hybrid ventilation, with highly concentrated dust clusters above 1000 mg/m3 diffusing to X=35 m when t=100 s. The highest concentration reached 1254.8 mg/m3. Applying this turbulent air chamber control and dry purification collaborative control technology for dust removal could effectively inhibits dust diffusion, which is blocked in the range of X=0~15 m, and purified by dry dust removal fan. Corresponding equipment was also developed.

CLC number: TD714.4 Document code: A Article ID: 2096-2193(2025)04-0705-09

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Journal of Mining Science and Technology
Pages 705-713

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Cite this article:
FU W, SONG H, CHEN X, et al. Turbulent air chamber control and dry purification collaborative control technology and equipment development for dust removal in fully mechanized excavation face. Journal of Mining Science and Technology, 2025, 10(4): 705-713. https://doi.org/10.19606/j.cnki.jmst.2025040

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Received: 13 December 2024
Revised: 17 January 2025
Published: 31 August 2025
© The Author(s) 2025

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).