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

• Published in: 矿业科学学报
• Main Authors: FU Wei, SONG Haizhou, CHEN Xiaofei, ZHANG Zhenguo, XU Chuanliang, LIU Qu, ZHANG Xiangyan
• Format: Article
• Language: English
• Published: Emergency Management Press 2025-08-01
• Subjects: fully mechanized excavation face; dust pollution; air curtain dust insulation; dry dust removal; equipment development
• Online Access: http://kykxxb.cumtb.edu.cn/en/article/doi/10.19606/j.cnki.jmst.2025040
• ISSN: 2096-2193

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 2 478.4 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 1 000 mg/m3 diffusing to X=35 m when t=100 s. The highest concentration reached 1 254.8 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.