基于Ventsim的矿井通风风量模拟研究
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摘要
矿井通风系统合理建设是井下安全高效生产的保证。以广西某矿山为工程背景,采用Ventsim三维软件对矿井通风系统进行模拟,并对矿井的整体需风量进行了计算,在工程中测量了通风风量。研究表明,Ventsim软件可以建立合理的矿井通风系统模型。仿真模拟矿井的进风量、回风量与实测矿井风量相符合,同时模拟结果还表明矿井风阻较大,系统漏风、循环风严重,该研究对矿井通风系统的优化改造具有指导意义。
Proper mine ventilation system construction ensures safe and efficient underground operation. The study takes a mine in Guangxi as the research subject,simulates the mine ventilation system with Ventsim 3D software,calculates the overall air volume needed in the mine and measures the air volume in field. The study shows that Ventsim software can establish a reasonable mine ventilation system model. The inlet and outlet of air volume in the simulation are consistent with the in-field measured volume. At the same time the simulation results also show that the air resistance is big,and the problem of air leakage and recycling in the system is severe. The study has guiding significance to the renovation of mine ventilation system.
Proper mine ventilation system construction ensures safe and efficient underground operation. The study takes a mine in Guangxi as the research subject,simulates the mine ventilation system with Ventsim 3D software,calculates the overall air volume needed in the mine and measures the air volume in field. The study shows that Ventsim software can establish a reasonable mine ventilation system model. The inlet and outlet of air volume in the simulation are consistent with the in-field measured volume. At the same time the simulation results also show that the air resistance is big,and the problem of air leakage and recycling in the system is severe. The study has guiding significance to the renovation of mine ventilation system.
引文
[1]何满潮.深部开采工程岩石力学现状及其展望[C]∥中国岩石力学与工程学会.第八次全国岩石力学与工程学术大会论文集.北京:科学出版社,2004:88-94.
[2]刘何清,吴超,王卫军,等.矿井降温技术研究述评[J].金属矿山,2005(6):43-46.
[3]何满潮,谢和平,彭苏萍,等.深部开采岩体力学研究[J].岩石力学与工程学报,2005,24(16):2 803-2 813.
[4]何少博.夏甸金矿深部安全开采技术研究[D].赣州:江西理工大学,2013.
[5]张合君,王洪勇,赵伟.红透山矿地压监测的实践[J].化工矿物与加工,2008,37(6):22-24.
[6]黄俊歆.矿井通风系统仿真可视化研究及其应用[D].湘潭:湖南科技大学,2007.
[7]王从陆.非灾变时期金属矿复杂矿井通风系统稳定性及数值模拟研究[D].长沙:中南大学,2007.
[8]李孜军,陈艳丽.基于Ventsim的矿井通风风阻参数优化[J].金属矿山,2014(3):136-140.
[9]蔡序淦,杨成林.大型复杂矿井的通风设计[J].有色冶金设计与研究,2011,32(2):1-2.
[10]田长顺,黄洪祥,王志勇.金属非金属地下矿山通风系统评价指标体系[J].有色金属科学与工程,2013(1):67-71.
[11]于广鹏.基于Ventsim软件对某多金属矿通风系统优化研究[J].采矿技术,2017,17(3):26-28.
[12]张国胜,苏成哲.基于Ventsim的小柳沟钨矿矿井通风系统优化设计[J].甘肃冶金,2017,39(2):1-3.
[2]刘何清,吴超,王卫军,等.矿井降温技术研究述评[J].金属矿山,2005(6):43-46.
[3]何满潮,谢和平,彭苏萍,等.深部开采岩体力学研究[J].岩石力学与工程学报,2005,24(16):2 803-2 813.
[4]何少博.夏甸金矿深部安全开采技术研究[D].赣州:江西理工大学,2013.
[5]张合君,王洪勇,赵伟.红透山矿地压监测的实践[J].化工矿物与加工,2008,37(6):22-24.
[6]黄俊歆.矿井通风系统仿真可视化研究及其应用[D].湘潭:湖南科技大学,2007.
[7]王从陆.非灾变时期金属矿复杂矿井通风系统稳定性及数值模拟研究[D].长沙:中南大学,2007.
[8]李孜军,陈艳丽.基于Ventsim的矿井通风风阻参数优化[J].金属矿山,2014(3):136-140.
[9]蔡序淦,杨成林.大型复杂矿井的通风设计[J].有色冶金设计与研究,2011,32(2):1-2.
[10]田长顺,黄洪祥,王志勇.金属非金属地下矿山通风系统评价指标体系[J].有色金属科学与工程,2013(1):67-71.
[11]于广鹏.基于Ventsim软件对某多金属矿通风系统优化研究[J].采矿技术,2017,17(3):26-28.
[12]张国胜,苏成哲.基于Ventsim的小柳沟钨矿矿井通风系统优化设计[J].甘肃冶金,2017,39(2):1-3.
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