摘要
为进一步提高风量利用率,简化矿井通风系统,降低矿井通风阻力,结合六家煤矿通风系统现状,提出3DSimOpt2.0三维通风仿真与优化系统,对六家煤矿通风阻力测定,调整通风系统及网络结构,制定适合该矿的通风系统优化方案。结果表明,利用三维通风仿真与优化系统对六家煤矿矿井通风系统的优化,实现了矿井主扇的最优运转,为矿井真正实现"以风定产"提供了科学依据,满足了矿井的安全生产。
In order to further improve the utilization rate of air volume, simplify the mine ventilation system and reduce the mine ventilation resistance, combined with the current situation of ventilation system in Liujia coal mines, 3 DSimOpt2.0 three-dimensional ventilation simulation and optimization system was proposed. The ventilation resistance of Liujia coal mines was measured, the ventilation system and network structure were adjusted, and the ventilation system optimization scheme suitable for the mine was formulated. The results show that the optimization of ventilation system of Liujia coal mine by 3 D ventilation simulation and optimization system has realized the optimal operation of mine main fan, which provides scientific basis for the realization of "determining production by air" and meets the safety production of mine.
作者
王中举
赵硕嫱
WANG Zhong-ju;ZHAO Shuo-qiang(Inner Mongolia Pingzhuang Energy Co.,Ltd.,Chifeng 024076,China;System Engineering Institute,Liaoning Technical University,Huludao 125105,China)
出处
《煤炭技术》
CAS
北大核心
2021年第5期103-106,共4页
Coal Technology
基金
国家自然科学基金资助项目(71771111)。
关键词
阻力测定
通风系统优化
网络解算
优化方案
resistance measurement
ventilation system optimization
network solution
optimization scheme
