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| 矿山微地震全波自动定位的层析成像方法(英文) | |
| 引用本文: | 缪华祥,姜福兴,宋雪娟,宋建勇,杨淑华,焦俊如. 矿山微地震全波自动定位的层析成像方法(英文)[J]. 应用地球物理, 2012, 9(2): 168-176. DOI: 10.1007/s11770-012-0327-3 |
| 作者姓名: | 缪华祥 姜福兴 宋雪娟 宋建勇 杨淑华 焦俊如 |
| 作者单位: | 北京科技大学土木与环境工程学院;中国石油勘探开发研究院地球物理研究所;Repsol USA,The Woodland,Texas77380,USA |
| 基金项目: | support jointly by projects of the National Natural Science Fund Project (40674017 and 50774012);the National Key Basic Research and Development Plan 973 (2010CB226803) |
| 摘 要: | 针对在矿山微地震监测过程中纵横波及其传播速度难以确定的难点,在球坐标系中以波动方程为基础,推导出了矿山微地震全波自动定位的层析成像的计算公式,并给出了参数选择准则,藉此可以获得微地震成像能量最大值及其对应参数。通过判断能量最大值在风险区内的位置,可以将风险区内外的微地震事件区分出来。对于能量最大值位于风险区域内的微地震事件,其震源位置和震动时间以及传播速度与能量最大值对应的坐标参数相同,能量最大值对应于震源函数相对强度;当能量最大值位于风险区域边界上时,微地震事件不在风险区域范围之内。理论模型试算和矿山实际微地震资料的应用表明:层析成像方法无需纵横波识别和传播速度假定,只要给定事故风险区域范围及其传播速度范围,便可完成微地震事件定位,是一种全波全自动定位方法,具有进一步研究价值。 |
| 关 键 词: | 微地震 全波 波型识别 层析成像 震源参数 自动定位 |
Automatically positioning microseismic sources in mining by the stereo tomographic method using full wavefields |
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| Hua-Xiang Miao,Fu-Xing Jiang,Xue-Juan Song,Jian-Yong Song,Shu-Hua Yang,Jun-Ru Jiao. Automatically positioning microseismic sources in mining by the stereo tomographic method using full wavefields[J]. Applied Geophysics, 2012, 9(2): 168-176. DOI: 10.1007/s11770-012-0327-3 | |
| Authors: | Hua-Xiang Miao Fu-Xing Jiang Xue-Juan Song Jian-Yong Song Shu-Hua Yang Jun-Ru Jiao |
| Affiliation: | 1. University of Science and Technology, Beijing, 100083, China 2. Research Institute of Petroleum Exploration and Development, Beijing, 100083, China 3. Repsol USA, The Woodlands, Texas, 77380, USA |
| Abstract: | For microseisimic monitoring it is difficult to determine wave modes and their propagation velocity. In this paper, we propose a new method for automatically inverting in real time the source characteristics of microseismic events in mine engineering without wave mode identification and velocities. Based on the wave equation in a spherical coordinate system, we derive a tomographic imaging equation and formulate a scanning parameter selection criterion by which the microseisimic event maximum energy and corresponding parameters can be determined. By determining the maximum energy positions inside a given risk district, we can indentify microseismic events inside or outside the risk districts. The synthetic and field examples demonstrate that the proposed tomographic imaging method can automatically position microseismic events by only knowing the risk district dimensions and range of velocities without identifying the wavefield modes and accurate velocities. Therefore, the new method utilizes the full wavefields to automatically monitor microseismic events. |
| Keywords: | microseismic full wavefields wavefield mode identification tomographic image source parameters automatic positioning |
| 本文献已被 CNKI SpringerLink 等数据库收录! | |