摘要
通过对Sting r1 Ip Swift高密度电法在前花园金矿区和阿陵河金矿区的应用分析,结果表明勘探线长度大于高密度电法实际探测剖面长度时,可先采用滑动测量或滚动测量两种方法采集数据,再将数据处理融合后进行反演,反演结果为长剖面二维断面图。将其与单条短剖面测量反演结果对比,两种结果反映出的异常在形态上相似、位置上对应,长剖面测量反演图像能够突出强度较高的异常,该方法实现了对整条勘探线上各异常进行强度对比和异常等级划分。
Application of Sting R1 Ip Swift high-density electrical method on Qianhuayuan and Alinghe gold area, shows that, when the length of exploration line is longer than the length of actual investigated profile of high-density electrical method, can collect data by using glide prospecting or roll prospecting method; then inverse the amalgamated data, which result is long profile of 2D profile contour map;contrasting it with the inversed result of single short section prospecting, can be concluded that the shape and position of resistivity and charging rate anomaly is corresponded with each kind of results. And that long profile tested inverse image can give prominence to higher intensity anomaly, by which can contrast intensity and compartmentalize anomaly grade of each kind of anomalies in the whole exploration line.
出处
《东华理工大学学报(自然科学版)》
CAS
2008年第2期152-158,共7页
Journal of East China University of Technology(Natural Science)
基金
武警黄金地质研究所计划内科研项目"高密度电法测量"(HJ06-05(1)
HJ07-04(1))
关键词
高密度电法
勘探线
长剖面
滚动测量
High-density electrical method
long profile
glide prospecting
roll prospecting
