内蒙古道朗和都格多金属矿区重磁资料处理解释
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摘要
本文以内蒙古道朗和都格多金属矿区为研究区,该区位于内蒙古中、高纬度高寒地区,基岩风化类型为物理风化。由于该地区覆盖严重,露头较少,以往的金属矿勘探工作以碎石追踪法为主,找矿质量较低。近年来有些单位在该区开展了覆盖区地球物理找矿方法研究,取得一些研究成果。但由于研究区及其周边区域地球物理资料收集到的有限,致使综合研究和利用的程度也很低。本文通过对研究区的重力勘探和地磁勘探数据的处理及解释,希望提高综合地球物理方法在寻找金属矿方面的应用效果。主要工作内容如下:
一、重磁数据处理方法研究及解释
1.重力资料数据处理及解释:进行了常规数据处理(包括解析延拓、分层剩余重力异常、匹配滤波分离深与浅源场、不同延拓高度的垂向二阶导数和水平方向导数)、三维欧拉反褶积定量反演、位场大深度向下延拓三维多次插值切割法分场计算、重力异常分离方法对比、视密度反演。
2.地磁资料数据处理及解释:进行了化极、向上延拓对比、三维欧拉反褶积定量反演、位场大深度向下延拓三维多次插值切割法分场计算、磁力异常分离方法对比。
3.重力和地磁资料综合解释:重磁对应分析方法研究及地质解释。
二、成矿远景靶区的圈定
通过重力和地磁异常数据处理和综合研究,结合地质特征,确定区内较大的断裂构造5条,圈定了磁性成矿远景区5个、非磁性成矿远景区5个。大致推算了成矿靶区的规模和埋深。对于间接寻找多金属矿产具有一定的价值。
三、对研究区内寻找钨矿进行了探讨,给出了进一步工作的建议。
In this paper,the study area is the multi-metal mining in Daolangheduge of Inner Mongolia.The area is high latitude cold area in Inner Mongolia, and weathering rock types is physical weathering. In the area, for serious coverage and less outcrop, the main metallic mineral exploration method is gravel tracing method in the past. So prospecting quality is lower.In recent years,some units study on geophysical prospecting method in the area, and got some research results. But because the geophysical data collection limit in study area and its surroundin, the comprehensive research and utilization degree is not enough. Through the gravity and magnetic date processing and interpretation of study area, hope to improve the application effect on research for metallic ore with the integrated geophysical methods. The main working conten:
A. Gravity and magnetic data processing method research and preliminary explanation.
1. Gravity data processing and preliminary explanation:usual dataprocessing(including analytical continuation, delamination residual gravity anomaly, matched filter separation deep with shallow source field, different continuation height of vertical and horizontal second derivative), three dimensional Euler deconvolution inversion, large depth downward continuation, split calculating of great depth potential field downward continuation three dimensional multiple interpolation cut method, gravity anomaly separation method comparison, apparent density inversion.
2. Magnetic data processing and preliminary explanation:polarization, upward continuation comparison, three dimensional Euler deconvolution inversion, large depth downward continuation, split calculating of great depth potential field downward continuation three dimensional multiple interpolation cut method, magnetic anomaly separation method comparison.
3. Comprehensive gravity data and magnetic data to explain.
B. The target prediction of magnetic prospective.
In this paper, by the analysis of the force of gravity and magnetic anomaly data processing, comprehensive research and the geological characteristics, there are5larger fracture structure,5magnetic prospective area and5non magnetic ore prospect areas out.Roughly calculate the size and depth of mineralization commercial target. There will be value to search for multi-metal ores.
C. Discuss tungsten ore prospecting and gives recommendations for further work.
一、重磁数据处理方法研究及解释
1.重力资料数据处理及解释:进行了常规数据处理(包括解析延拓、分层剩余重力异常、匹配滤波分离深与浅源场、不同延拓高度的垂向二阶导数和水平方向导数)、三维欧拉反褶积定量反演、位场大深度向下延拓三维多次插值切割法分场计算、重力异常分离方法对比、视密度反演。
2.地磁资料数据处理及解释:进行了化极、向上延拓对比、三维欧拉反褶积定量反演、位场大深度向下延拓三维多次插值切割法分场计算、磁力异常分离方法对比。
3.重力和地磁资料综合解释:重磁对应分析方法研究及地质解释。
二、成矿远景靶区的圈定
通过重力和地磁异常数据处理和综合研究,结合地质特征,确定区内较大的断裂构造5条,圈定了磁性成矿远景区5个、非磁性成矿远景区5个。大致推算了成矿靶区的规模和埋深。对于间接寻找多金属矿产具有一定的价值。
三、对研究区内寻找钨矿进行了探讨,给出了进一步工作的建议。
In this paper,the study area is the multi-metal mining in Daolangheduge of Inner Mongolia.The area is high latitude cold area in Inner Mongolia, and weathering rock types is physical weathering. In the area, for serious coverage and less outcrop, the main metallic mineral exploration method is gravel tracing method in the past. So prospecting quality is lower.In recent years,some units study on geophysical prospecting method in the area, and got some research results. But because the geophysical data collection limit in study area and its surroundin, the comprehensive research and utilization degree is not enough. Through the gravity and magnetic date processing and interpretation of study area, hope to improve the application effect on research for metallic ore with the integrated geophysical methods. The main working conten:
A. Gravity and magnetic data processing method research and preliminary explanation.
1. Gravity data processing and preliminary explanation:usual dataprocessing(including analytical continuation, delamination residual gravity anomaly, matched filter separation deep with shallow source field, different continuation height of vertical and horizontal second derivative), three dimensional Euler deconvolution inversion, large depth downward continuation, split calculating of great depth potential field downward continuation three dimensional multiple interpolation cut method, gravity anomaly separation method comparison, apparent density inversion.
2. Magnetic data processing and preliminary explanation:polarization, upward continuation comparison, three dimensional Euler deconvolution inversion, large depth downward continuation, split calculating of great depth potential field downward continuation three dimensional multiple interpolation cut method, magnetic anomaly separation method comparison.
3. Comprehensive gravity data and magnetic data to explain.
B. The target prediction of magnetic prospective.
In this paper, by the analysis of the force of gravity and magnetic anomaly data processing, comprehensive research and the geological characteristics, there are5larger fracture structure,5magnetic prospective area and5non magnetic ore prospect areas out.Roughly calculate the size and depth of mineralization commercial target. There will be value to search for multi-metal ores.
C. Discuss tungsten ore prospecting and gives recommendations for further work.
引文
[1]祁民,张宝林,符超,等.运用综合预测方法组合快速发现内蒙古中部隐伏大型铜钨多金属矿勘查基地[J].地质与勘探,2009(6):676-682.
[2]吴智平,侯旭波,李伟.华北东部地区中生代盆地格局及演化过程探讨[J].大地构造与成矿学,2007(4):385-399.
[3]邓胜徽,万传彪,杨建国.黑龙江阿城晚二叠世安加拉-华夏混生植物群——兼述古亚洲洋的关闭问题[J].中国科学:D辑,2009(12):1744-1752.
[4]张静华,李延兴,郭良迁,等.用GPS测量结果研究华北现今构造形变场[J].大地测量与地球动力学,2004(3):40-46.
[5]沈存利,苏宏伟,王守光.内蒙古铜矿床区域成矿特征初步研究[J].西北地质,2004,37(3):43-50.
[6]Chandler V W, Koski J S,Hinze W J, et al. Analysis of multisource gravity and m agnetic anomaly data sets by moving-window application of Poisson's theorem[J]. Geophysics, 1981,46(1):30-39.
[7]陈青.欧拉反褶积在断裂识别中的应用[D].西安:西安石油大学,2010.
[8]赵希刚.多源信息处理及其在线环构造识别和多种能源矿藏(床)找矿中的应用一以鄂尔多斯盆地为例[D].西安:西安大学,2006
[9]孙国明.重力高阶导数研究及应用[D].成都:成都理工大学,2011.
[10]郜晓亮.重力归一化总梯度方法研究与应用[D].成都:成都理工大学,2010.
[11]G. R. J. Cooper, D. R. Cowan. Differential reduction to the pole[J]. Computers And Geosciences,2005,31:989-999.
[12]王建明.重磁异常变换中的延拓问题[J].新疆有色金属,2006(2):12-14.
[13]刘沈衡.重磁异常对应分析及应用[J].物探化探计算技术,1993,3:27-32.
[14]焦新华,吴燕冈.重力与磁法勘探[M].北京:地质出版社,2009.
[15]成怡,郝燕玲,刘繁明.航空重力测量数据向下延拓及其影响因素分析[J].系统仿真学报,2008(8):249-253.
[16]张凤旭,孟令顺,张凤琴,等.重力位谱分析及重力异常导数换算新方法—余弦变换[J].地球物理学报,2006,49(1):344-348.
[17]ROBISON E S. Upward continuation of total intensity magnetic fields[J]. Geophysics, 1970,35 (5):920-926.
[18]徐世浙,张研,文百红,等.切割法在陆东地区磁异常解释中的应用[J].石油物探,2006,3:316-318.
[19]戴伟.磁异常处理与信息提取技术研究[D].成都:成都理工大学,2008.
[20]赵明秋,牛建国.连接不同震源数据的匹配滤波技术[J].石油地球物理勘探2007(S1):149-153.
[21]周文纳,曾昭发,杜晓娟,等.基于经验模态分解的重力异常分离[J].世界地质,2010,29(3):142-149.
[22]李增兵.东天山重力场下延的方法及应用研究[D].新疆:新疆大学,2007.
[23]赵敏.西藏重磁场特征分析与区域地质构造识别与划分[D].成都:成都理工大学,2011.
[24]胡方秋,刘景元.北天山地震构造特征——航空照片解译[J].内陆地震,1993(2):73-78.
[25]王萍,郑永果,李永庆,等.鲁西线性构造的提取及其多金属成矿模式探讨[J].资源开发与市场,2008(5):15-16.
[26]史辉,刘天佑.利用欧拉反褶积法估计二度磁性体深度与位置[J].物探与化探,2005(3):44-47.
[27]余海龙.位场异常三维视物性快速反演[D].浙江:浙江大学理学院,2009.
[28]汪炳柱,徐世浙,刘保华,等.多次插值切割法分场的一个实例[J].石油地球物理勘探,1997(3):431-438.
[29]Garland G D. Combined analysis of gravity and magnetic anomalies[J]. Geophysics, 1951,16(5):51-62.
[30]段本春,徐世浙,阎汉杰,等.划分磁异常场的插值切割法在研究火成岩体分布中的应用[J].石油地球物理勘探,1998(1):125-131.
[31]王俊虎,杨锋杰.3DSurfer在地质体属性建模及可视化中的应用[J].金属矿山,2008,5:122-124.
[32]Kanasewich E R, Agarwal R G. Analysis of combined gravity and magnetic fields in the wave num ber domain[J]. J Geophys Res,1970,5 (5):702-712.
[33]段本春,徐世浙.磁(重力)异常局部场与区域场分离处理中的扩边方法研究[J].物探化探计算技术,1997(4):11-17.
[34]秦葆瑚.高精度磁测方法指南[J].湖南地质,1991(A05):-100.
[35]刘涛.小波变换技术概述[J].中国新技术新产品,2010,22(3):39.
[36]谭星斌.信号处理方法的数学分析[J].仪器仪表标准化与计量,2004(1):19-21.
[37]窦喜英,吴燕冈,王恩利,等.重磁对应分析方法在东北地区实际资料处理中的应用[J].吉林 地质,2006,25(2):42-47.
[38]宋景明.基于对应分析的重力异常分离技术及应用[J].天然气工业,2007(S1):324-325.
[39]康国发,高国明,白春发,等.中国及邻近地区CHAMP卫星磁异常的分布特征[J].地球物理学报,2010(4):895-903.
[40]师哈娟,李平.基于泊松定理的重磁异常对应分析综述[J].黑龙江科技信息,2011(23):100.
[41]刘沈衡,朱春生.重磁异常对应分析应用实例[J].有色金属矿产与勘查,1998(3):33-36.
[42]刘彦华,陈宗刚,欧阳长亮.重磁异常对应分析在相山地区的应用[J].物探与化探,2008(6):9-12.
[2]吴智平,侯旭波,李伟.华北东部地区中生代盆地格局及演化过程探讨[J].大地构造与成矿学,2007(4):385-399.
[3]邓胜徽,万传彪,杨建国.黑龙江阿城晚二叠世安加拉-华夏混生植物群——兼述古亚洲洋的关闭问题[J].中国科学:D辑,2009(12):1744-1752.
[4]张静华,李延兴,郭良迁,等.用GPS测量结果研究华北现今构造形变场[J].大地测量与地球动力学,2004(3):40-46.
[5]沈存利,苏宏伟,王守光.内蒙古铜矿床区域成矿特征初步研究[J].西北地质,2004,37(3):43-50.
[6]Chandler V W, Koski J S,Hinze W J, et al. Analysis of multisource gravity and m agnetic anomaly data sets by moving-window application of Poisson's theorem[J]. Geophysics, 1981,46(1):30-39.
[7]陈青.欧拉反褶积在断裂识别中的应用[D].西安:西安石油大学,2010.
[8]赵希刚.多源信息处理及其在线环构造识别和多种能源矿藏(床)找矿中的应用一以鄂尔多斯盆地为例[D].西安:西安大学,2006
[9]孙国明.重力高阶导数研究及应用[D].成都:成都理工大学,2011.
[10]郜晓亮.重力归一化总梯度方法研究与应用[D].成都:成都理工大学,2010.
[11]G. R. J. Cooper, D. R. Cowan. Differential reduction to the pole[J]. Computers And Geosciences,2005,31:989-999.
[12]王建明.重磁异常变换中的延拓问题[J].新疆有色金属,2006(2):12-14.
[13]刘沈衡.重磁异常对应分析及应用[J].物探化探计算技术,1993,3:27-32.
[14]焦新华,吴燕冈.重力与磁法勘探[M].北京:地质出版社,2009.
[15]成怡,郝燕玲,刘繁明.航空重力测量数据向下延拓及其影响因素分析[J].系统仿真学报,2008(8):249-253.
[16]张凤旭,孟令顺,张凤琴,等.重力位谱分析及重力异常导数换算新方法—余弦变换[J].地球物理学报,2006,49(1):344-348.
[17]ROBISON E S. Upward continuation of total intensity magnetic fields[J]. Geophysics, 1970,35 (5):920-926.
[18]徐世浙,张研,文百红,等.切割法在陆东地区磁异常解释中的应用[J].石油物探,2006,3:316-318.
[19]戴伟.磁异常处理与信息提取技术研究[D].成都:成都理工大学,2008.
[20]赵明秋,牛建国.连接不同震源数据的匹配滤波技术[J].石油地球物理勘探2007(S1):149-153.
[21]周文纳,曾昭发,杜晓娟,等.基于经验模态分解的重力异常分离[J].世界地质,2010,29(3):142-149.
[22]李增兵.东天山重力场下延的方法及应用研究[D].新疆:新疆大学,2007.
[23]赵敏.西藏重磁场特征分析与区域地质构造识别与划分[D].成都:成都理工大学,2011.
[24]胡方秋,刘景元.北天山地震构造特征——航空照片解译[J].内陆地震,1993(2):73-78.
[25]王萍,郑永果,李永庆,等.鲁西线性构造的提取及其多金属成矿模式探讨[J].资源开发与市场,2008(5):15-16.
[26]史辉,刘天佑.利用欧拉反褶积法估计二度磁性体深度与位置[J].物探与化探,2005(3):44-47.
[27]余海龙.位场异常三维视物性快速反演[D].浙江:浙江大学理学院,2009.
[28]汪炳柱,徐世浙,刘保华,等.多次插值切割法分场的一个实例[J].石油地球物理勘探,1997(3):431-438.
[29]Garland G D. Combined analysis of gravity and magnetic anomalies[J]. Geophysics, 1951,16(5):51-62.
[30]段本春,徐世浙,阎汉杰,等.划分磁异常场的插值切割法在研究火成岩体分布中的应用[J].石油地球物理勘探,1998(1):125-131.
[31]王俊虎,杨锋杰.3DSurfer在地质体属性建模及可视化中的应用[J].金属矿山,2008,5:122-124.
[32]Kanasewich E R, Agarwal R G. Analysis of combined gravity and magnetic fields in the wave num ber domain[J]. J Geophys Res,1970,5 (5):702-712.
[33]段本春,徐世浙.磁(重力)异常局部场与区域场分离处理中的扩边方法研究[J].物探化探计算技术,1997(4):11-17.
[34]秦葆瑚.高精度磁测方法指南[J].湖南地质,1991(A05):-100.
[35]刘涛.小波变换技术概述[J].中国新技术新产品,2010,22(3):39.
[36]谭星斌.信号处理方法的数学分析[J].仪器仪表标准化与计量,2004(1):19-21.
[37]窦喜英,吴燕冈,王恩利,等.重磁对应分析方法在东北地区实际资料处理中的应用[J].吉林 地质,2006,25(2):42-47.
[38]宋景明.基于对应分析的重力异常分离技术及应用[J].天然气工业,2007(S1):324-325.
[39]康国发,高国明,白春发,等.中国及邻近地区CHAMP卫星磁异常的分布特征[J].地球物理学报,2010(4):895-903.
[40]师哈娟,李平.基于泊松定理的重磁异常对应分析综述[J].黑龙江科技信息,2011(23):100.
[41]刘沈衡,朱春生.重磁异常对应分析应用实例[J].有色金属矿产与勘查,1998(3):33-36.
[42]刘彦华,陈宗刚,欧阳长亮.重磁异常对应分析在相山地区的应用[J].物探与化探,2008(6):9-12.