鹰骏三号井田2煤层顶板“两带”高度数值模拟研究
孙振洋
中国煤炭地质总局 水文地质局,河北 邯郸 056004
Numerical simulation study on 'two zones' height of No.2 coal seam roof in Yingjun No.3 field
Sun Zhenyang
Bureau of Hydrogeology, China National Administration of Coal Geology, Handan 056004, China
摘要 本文针对鹰骏三号井田范围内2号煤层顶板导水裂隙带研究较为薄弱的现状,通过FLAC3D数值模拟揭示了11201工作面上覆岩层移动和破坏规律,预测了2号煤层开采后上覆岩层内“冒落带”和“导水裂隙带”的发育高度,并采用经验公式对其覆岩“两带”高度进行计算分析。研究结果表明,FLAC3D数值模拟计算结果与经验公式结果基本一致,为煤矿防治水及安全开采技术措施制定提供可靠参数。
关键词 :
覆岩两带高度 ,
数值模拟 ,
导水裂隙带 ,
FLAC3D
Abstract : In this paper, aiming at the current situation that the research on the water conduction fracture zone of the roof of No.2 coal seam in Yingjun No.3 mine field was relatively weak, the movement and failure law of the overlying strata on the No.11201 face was revealed by FLAC3D numerical simulation, and the development height of the 'caving zone' and 'water conduction fracture zone' in the overlying strata after No.2 coal seam mining was predicted, and the height of the 'two zones' of the overlying strata was calculated and analyzed by empirical formula. The results showed that the FLAC3D numerical simulation results were basically consistent with the empirical formula results, which provided reliable parameters for the formulation of coal mine water control and safe mining technical measures.
Key words :
The two zones height of overlying rock
numerical simulation
water conduction fracture zone
FLAC3D
作者简介 : 孙振洋( 1967— ),男,河北武邑人,高级工程师。
[ 1 ] 钱鸣高,许家林. 煤炭开采与岩层运动[ J ]. 煤炭学报,2019,44( 4 ):973 - 984.
[ 2 ] 康红普,徐 刚,王彪谋,等. 我国煤炭开采与岩层控制技术发展40a及展望[ J ]. 采矿与岩层控制工程学报,2019( 2 ):1 - 33.
[ 3 ] 范立民,向茂西,彭 捷,等. 西部生态脆弱矿区地下水对高强度采煤的响应[ J ]. 煤炭学报,2016,41( 11 ):2 672 - 2 678.
[ 4 ] 张玉鹏,张玉军,刘毅涛,等. 蒙西深部厚煤层大采高综采面覆岩破坏高度研究[ J ]. 中国安全科学学报,2020,30( 8 ):37 - 43.
[ 5 ] 陈荣华,白海波,冯梅梅. 综放面覆岩导水裂隙带高度的确定[ J ]. 采矿与安全工程学报,2006,23( 2 ):220 - 223.
[ 6 ] 许家林,朱卫兵,王晓振. 基于关键层位置的导水裂隙带高
度预计方法[ J ]. 煤炭学报,2012,37( 5 ):762 - 769.
[ 7 ] 许家林,王晓振,刘文涛,等. 覆岩主关键层位置对导水裂隙带高度的影响[ J ]. 岩石力学与工程学报,2009,28( 2 ):380 - 385.
[ 8 ] 郝长胜,赵 冉,苏 岳. 煤层群开采覆岩导水裂隙带发育规律研究[ J ]. 煤炭技术,2018( 6 ):141 - 142.
[ 9 ] ZHANG D S, FAN G W, LIU Y D, et al. Field trials of aquifer pr-
otection in longwall mining of shallow coal seams in China [ J ]. International Journal of Rock Mechanics and Mining Science, 2010, 47( 6 ) : 908 - 914.
[ 10 ] ZHANG D S, FAN G W, MA L Q, et al. Aquifer protection during longwall mining of shallow coal seams:a case study in the Shendong Coalfield of China [ J ]. International Journal Coal Geology, 2011, 86 ( 2 ): 190 - 196.
[ 11 ] 武 强,赵苏启,董书宁,等. 煤矿防治水手册[ M ]. 北京:煤炭工业出版社,2013.
[ 12 ] 国家煤矿安全监察局. 煤矿防治水细则[ M ]. 北京:煤炭工业出版社,2018.
[1]
马红卫. 三图双预测在横沟井田顶板突水评价中的应用
[2]
张腾宙. 大断面切巷锚杆支护参数的研究与应用
[3]
陈宪伟1,石 媛2. 常村煤矿复杂围岩条件下软岩穿层巷道围岩控制技术研究
[4]
李振武1,何建新2,沈建波1. C2316 工作面冲击地压诱发因素及矿压显现特征分析
[5]
李勤生. 花草滩煤矿1102运输顺槽切顶卸压护巷关键技术研究
[6]
王志根1,苏相宾1,李 玥2,郝鸿儒1,贾晋才1,陈 云1. 特厚煤层沿空巷道煤柱留设宽度研究
[7]
杨春鹤,朱翔斌,程雁斌,赵 均,刘志杰. 复合硬厚顶板采场覆岩垮落控制研究
[8]
贺 龙. 麦捷150505综放工作面回采巷道切顶卸压分析
[9]
庞杰文,李鹏伟,郝永江,谢建林,梁 磊. 煤层倾角对上覆岩层导水裂隙带的影响
[10]
庞杰文,李鹏伟,谢建林,梁 磊,郝永江. 二次动压巷道煤柱宽度优化研究
[11]
赵 研1,秦洪岩2,商佳新1. 基于数值计算的断层群小断面巷道稳定性分析
[12]
张 楠. 慈林山矿上覆采空区积水煤层开采突水危险性评价
[13]
赵建峰. 18502工作面断层构造区域底板突水机理与注浆防治技术应用
[14]
郝晓虎. 曹村煤矿十采区2号煤充水条件及突水危险性分析
[15]
孙殿宇. 下霍煤矿水体下安全开采可行性研究
