矿井槽波地震数据处理系统GeoCoal软件开发与应用

王保利; 金丹

doi:10.3969/j.issn.1001-1986.2019.01.027

矿井槽波地震数据处理系统GeoCoal软件开发与应用

doi: 10.3969/j.issn.1001-1986.2019.01.027

王保利,
金丹

基金项目:

国家重大科技专项课题（2016ZX05045003-005）；中煤科工集团西安研究院有限公司科技创新基金项目（2018XAYZD04，2018XAYQN03）

详细信息

第一作者:
王保利,1981年生,山西兴县人,男,博士,副研究员,从事矿井槽波数据处理、地震波场正反演研究 E-mail:pooly1981@163com

中图分类号: P631
计量
- 文章访问数: 151
- HTML全文浏览量: 68
- PDF下载量: 16
- 被引次数: 0
出版历程
- 收稿日期: 2018-01-15
- 发布日期: 2019-02-25

Development and application of GeoCoal for in-seam seismic data processing

WANG Baoli,
JIN Dan

Funds:

National Science and Technology Major Project(2016ZX05045003-005)

摘要

摘要: 定位于矿井槽波地震勘探，开发一套针对槽波地震数据的处理解释平台，以期推动矿井槽波地震勘探技术更好地为煤矿安全生产服务。构建了软件设计架构，介绍了软件主要子系统和每个子系统包含的功能模块和软件运行环境，最后进行了部分软件界面和成果的展示。
- 矿井槽波 /
- 软件开发 /
- 数据处理
Abstract: A data processing platform for in-seam seismic exploration(ISS) was developed, which can make ISS better serve safe production in coal mines. The software design architecture was constructed, and the function modules and the software running environment are introduced. Finally, some software interfaces and results were demonstrated.
- in-seam wave in coal mine /
- software development /
- data processing

HTML全文

参考文献(13)

[1]	程建远,李淅龙,张广忠,等. 煤矿井下地震勘探技术应用现状与发展展望[J]. 勘探地球物理进展,2009,32(2):96-100. CHENG Jianyuan,LI Xilong,ZHANG Guangzhong,et al. Current status and outlook of seismic exploration applied under-ground in coal mine[J]. Progress in Exploration Geophysics, 2009,32(2):96-100.
[2]	刘天放. 槽波地震勘探[M]. 北京:中国矿业大学出版社, 1994:100-102.
[3]	胡国泽,滕吉文,皮娇龙,等. 井下槽波地震勘探:预防煤矿灾害的一种地球物理方法[J]. 地球物理学进展,2013,28(1):439-451. HU Guoze,TENG Jiwen,PI Jiaolong,et al. In-seam seismic exploration techniques:A geophsical method predictting coal-mine disaster[J]. Progress in Geophysics,2013,28(1):439-451.
[4]	姬广忠. 反射槽波绕射偏移成像及应用[J]. 煤田地质与勘探, 2017,45(1):121-124. JI Guangzhong. Diffraction migration imaging of reflected in-seam waves and its application[J]. Coal Geology & Exploration,2017,45(1):121-124.
[5]	渥·伊尔马滋. 地震资料分析——地震资料处理、反演和解释[M]. 刘怀山,曹孟起,张进,等译. 北京:石油工业出版社,2006.
[6]	魏福吉,徐维秀. 面向地震数据采集工程软件的应用集成框架技术[J]. 石油地球物理勘探,2013,48(5):811-819. WEI Fuji,XU Weixiu. Applied integration framework technology for seismic acquisition software[J]. Oil Geophysical Prospecting,2013,48(5):811-819.
[7]	王宏琳,陈继红. 地球物理软件集成环境研究[J]. 石油地球物理勘探,2010,45(2):299-305. WANG Honglin,CHEN Jihong. Studied on geophysical software integration environment[J]. Oil Geophysical Prospecting,2010, 45(2):299-305.
[8]	HU Wenyi,ABUBAKAR A,HABASHY T M. Application of the nearly perfectly matched layer in acoustic wave modeling[J]. Geophysics,2007,72(5):169-175.
[9]	DIALLO M S,KULESH M,HOLSCHNEIDER M,et al. Instantaneous polarization attributes based on an adaptive approximate covariance method[J]. Geophysics,2006,71(5):99-104.
[10]	DU Z, FOULGER G R, MAO W. Noise reduction for broad-band,three-component seismograms using data-adaptive polarization filters[J]. Geophysical Journal International,2000, 141(3):820-828.
[11]	DACID M,DIMITRI K. Accelerating a three-dimensional finite-difference wave propagation code using GPU graphics cards[J]. Geophysical Journal International,2010,182(1):389-402.
[12]	程建远,姬广忠,朱培民. 典型含煤模型Love型槽波的频散特征分析[J]. 煤炭学报, 2012, 37(1):67-72. CHENG Jianyuan, JI Guangzhong, ZHU Peimin. Love channel-waves dispersion characteristic analysis of typical coal models[J]. Journal of China Coal Society, 2012, 37(1):67-72.
[13]	HU Yanrong,MCMECHAN G A. Imaging mining hazards within coal beds using prestack wave equation migration of in-seam seismic survey data:A feasibility study with synthetic data[J]. Journal of Applied Geophysics,2007,63(1):24-34.