不同通风方式及压风量下的掘进工作面不同通风方式及压风量下的掘进工作面
Research on air flow and dust distribution law of heading face under different ventilation modes and air pressures
-
摘要: 为解不同的通风方法和压风风量对掘进工作面粉尘分布规律的影响,建立了乌东煤矿西区掘进工作面的1∶1物理模型,利用Ansys Fluent软件对压入式、混合式通风条件下的掘进工作面粉尘运移情况进行数值模拟;在混合式通风条件下改变压风量,观察粉尘扩散的规律。结果表明:压入式通风无法有效控制粉尘运移,而混合式通风的情况下粉尘得到了有效的控制;不同的压风量会产生不同的控尘效果;当压风量为150~250 m3/min时,压风量过小,导致粉尘堆积在巷道前部;而压风量为350 m3/min以上时,因为压风量过大,导致粉尘在被除尘风机净化前就被风流裹挟扩散至巷道后部,使得控尘效果较差;当压风量为300 m3/min时,控尘效果最佳,高浓度粉尘被控制在巷道距离迎头25 m内。Abstract: In order to determine the influence of different ventilation methods and pressure air volume on the dust distribution law of the heading face, a 1∶1 physical model of the heading face in the west area of Wudong Coal Mine was established. Numerical simulation was carried out on the dust migration of the heading face, and then the pressure air volume was changed under the mixed ventilation condition to observe the law of dust diffusion. The results show that the pressure-entry ventilation cannot effectively control the dust migration, but the dust can be effectively controlled under the mixed ventilation. At the same time, different pressure air volume will produce different dust control effects. When the pressure air volume is 150-250 m3/min, the pressure air volume is too small, causing dust to accumulate in the front of the roadway; however, when the pressure air volume is above 350 m3/min, dust will be carried by wind and spread to the back of the roadway before being purified by the dust removal fan, which makes the dust control effect poor; when the pressure air volume is 300 m3/min, the dust control effect is the best, and the high-concentration dust is controlled in the roadway within 25 m from the head.
-
Keywords:
- heading face /
- mixed ventilation /
- ventilation optimization /
- compressed air volume /
- dust control
-
-
[1] 李德文.粉尘防治技术的最新进展[J].矿业安全与环保,2000,27(1):10-12. LI Dewen. Latest development of dust prevention and control techniques[J]. Mining Safety & Environmental Protection, 2000, 27(1): 10-12.
[2] 周刚,程卫民,陈连军,等.综放工作面粉尘浓度空间分布规律的数值模拟及其应用[J].煤炭学报,2010, 35(12):2094-2099. ZHOU Gang, CHENG Weimin, CHEN Lianjun, et al. Numerical simulation and its application of dust concentration spatial distribution regularities in fully-mechanized caving face[J]. Journal of China Coal Society, 2010, 35(12): 2094-2099.
[3] 戚险峰,李继民,方德勇,等.利用长压短抽通风方式解决综掘工作面粉尘问题[J].煤矿安全,2007,38(10):23-24. [4] 杜翠凤,王辉,蒋仲安,等.长压短抽式通风综掘工作面粉尘分布规律的数值模拟[J].北京科技大学学报,2010,32(8):957-962. DU Cuifeng, WANG Hui, JIANG Zhongan, et al. Numerical simulation of dust distribution in a fully mechanized excavation face with far-pressing-near-absorption ventilation[J]. Journal of University of Science and Technology Beijing, 2010, 32(8): 957-962.
[5] 任新锋.综掘工作面长压短抽式通风除尘技术研究[J].陕西煤炭,2013,32(4):17-19. REN Xinfeng. Research on ventilation dust technology of long-pressure and short axis for fully mechanized excavation face[J] Shanxi Coal, 2013, 32(4): 17-19.
[6] 姚玉静,程卫民,聂文,等.综掘工作面粉尘浓度分布的数值模拟[J].矿业安全与环保,2011,38(3):21-22. YAO Yujing, CHENG Weimin, NIE Wen, et al. Numerical simulation of dust concentration distribution in a fully mechanized heading face[J]. Mining Safety & Environmental Protection, 2011, 38(3): 21-22.
[7] 周茂普.综掘工作面通风除尘系统研发与应用[J].煤炭科学技术,2009,37(10):1-3. ZHOU Maopu. Research and application of ventilation and dust collecting system for fully mechanized gateway heading face[J]. Coal Science and Technology, 2009, 37(10): 1-3.
[8] 蒋仲安,闫鹏,陈举师,等.岩巷掘进巷道长压短抽通风系统参数优化[J].煤炭科学技术,2015,43(1):54 -58. JIANG Zhongan, YAN Peng, CHEN Jushi, et al. Optimization on parameters of long distance forced and short distance exhausted ventilation system in mine rock heading roadway[J]. Coal Science and Technology, 2015, 43(1): 54-58.
[9] 聂文,马骁,程卫民,等.通风条件影响长压短抽掘进面粉尘扩散的仿真实验[J].中南大学学报(自然科学版),2015,46(9):3346-3353. NIE Wen, MA Xiao, CHENG Weimin, et al. Simulation experiment on effects of ventilation conditions on dust diffusion of the forced with long duct fan accompanied with short duct exhaustor in heading face[J]. Journal of Central South University(Science and Technology), 2015, 46(9): 3346-3353.
[10] 刘喜春.综掘工作面长压短抽通风除尘系统[J].山西煤炭,2010,30(5):53-54. LIU Xichun. Dust control system with mixed ventila-tion in fully mechanized roadway[J]. Shanxi Coal, 2010, 30(5): 53-54.
[11] 秦跃平,张苗苗,崔丽洁,等.综掘工作面粉尘运移的数值模拟及压风分流降尘方式研究[J].北京科技大学学报,2011,33(7):790-794. QIN Yueping, ZHANG Miaomiao, CUI Lijie, et al. Numerical simulation of dust migration and study on dust removal modes with the forced ventilation shunt in a fully mechanized workface[J]. Journal of University of Science and Technology Beijing, 2011, 33(7): 790-794.
-
期刊类型引用(7)
1. 杨希培,高家奎,贺福权. 五虎山煤矿灾害智能监测预警平台研发及应用. 山东煤炭科技. 2025(01): 144-147+152 . 
百度学术
2. 彭艳,刘风华,朱伊雯,陶星聿. 基于微信小程序的煤矿安全培训平台前端设计与实现. 现代信息科技. 2024(09): 97-100+18105 . 百度学术
3. 周建. 基于“一通三防”的矿井智能管控技术研究与应用. 中国煤炭. 2024(06): 59-66 . 百度学术
4. 于海鹏,张润廷,苏宁. 基于AI技术的智慧煤矿安全监控预警系统建设分析. 煤化工. 2024(04): 115-118 . 百度学术
5. 郭家驹,唐飞. 高速公路施工工点数字化安全管控系统应用. 建筑安全. 2024(09): 51-53+58 . 百度学术
6. 周子维,王福生,董宪伟,丁洪玲,高东. 炼钢厂智慧安全管控平台的构建与应用. 华北理工大学学报(自然科学版). 2024(04): 45-58 . 百度学术
7. 王旭东,曹正远. 新街能源智能一体化管控平台技术研究. 中国煤炭. 2024(10): 91-97 . 百度学术
其他类型引用(1)
计量
- 文章访问数: 37
- HTML全文浏览量: 0
- PDF下载量: 24
- 被引次数: 8
下载:
