建井技术
建井技術
건정기술
Mine Construction Technology
2015年
4期
21-24
,共4页
仿真技术%风井%MVIS%矿井负压
倣真技術%風井%MVIS%礦井負壓
방진기술%풍정%MVIS%광정부압
simulation technology%mine ventilation shaft%M VIS%negative pressure in mine
唐安煤矿煤炭开采由四盘区逐步过渡到三盘区。为保证龙背石风井投运后,整个通风系统稳定,利用矿井通风综合管理系统,对投运前的通风系统进行了仿真模拟与分析,得到了优化方案,实现了风井顺利投运,保证了通风系统稳定可靠运行,为矿井安全高效生产提供了保障。
唐安煤礦煤炭開採由四盤區逐步過渡到三盤區。為保證龍揹石風井投運後,整箇通風繫統穩定,利用礦井通風綜閤管理繫統,對投運前的通風繫統進行瞭倣真模擬與分析,得到瞭優化方案,實現瞭風井順利投運,保證瞭通風繫統穩定可靠運行,為礦井安全高效生產提供瞭保障。
당안매광매탄개채유사반구축보과도도삼반구。위보증룡배석풍정투운후,정개통풍계통은정,이용광정통풍종합관리계통,대투운전적통풍계통진행료방진모의여분석,득도료우화방안,실현료풍정순리투운,보증료통풍계통은정가고운행,위광정안전고효생산제공료보장。
Coal mining in Tang’an Mine was steadily transited from No.4 block to No.3 block.In order to ensure the whole mine ventilation system stable after Longbeishi Mine in production and operation , a mine ventilation comprehensive management system was applied to the simulation and analysis on the ventilation system before in production and operation and thus the optimized plan w as ob‐tained. The successful production and operation of the mine ventilation shaft was realized ,the stable and reliable operation of the ventilation system was ensured and therefore the protection could be pro‐vided to the mine safety and high efficient production.
