电法并行采集AM排列推导ABM排列技术研究
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摘要
在高密度电阻率法基础上,网络并行电法采集技术把各种电法装置简化为AM排列和ABM排列,从而极大提高了电法工作效率。在研究传统电阻率法二极装置可以推导到三极和四极电法等的原理基础上,研究出可以由AM排列推导到ABM排列数据以得到各种电法装置数据的方法;通过AM排列推导出的四极装置结果与ABM排列实测的四极装置结果对比可知,这两种结果基本一致。通过该方法,可以由一次现场AM排列供电施工得到ABM排列的数据,从而可以得到其他各类的电法装置数据,提高网络并行电法采集效率,还可从多角度探测介质的电性特点及差异。
Base on the high density resistivity method,the network parallel electrical resistivity method develop the AM array and ABM array take the place of the normal electrical detection method,it makes the electrical resistivity method detection more efficiency. By studying the feature of the two array transform into tri-electrode arrangement and Schlumberger electrode array,the AM method data can be transform into the ABM method data,such as all kinds of electrical detection method data in study. By comparing the AM array to derive the Schlumberger electrode array with the results of the ABM array measured Schlumberger electrode array,the results shows that the two results are basically the same. The research results show that this method can be powered by a once AM array work,getting all kinds of electrical method data,this method can improve the network parallel electrical method detection,it also can get multi-angle analysis the object's electrical characteristics and differences.
Base on the high density resistivity method,the network parallel electrical resistivity method develop the AM array and ABM array take the place of the normal electrical detection method,it makes the electrical resistivity method detection more efficiency. By studying the feature of the two array transform into tri-electrode arrangement and Schlumberger electrode array,the AM method data can be transform into the ABM method data,such as all kinds of electrical detection method data in study. By comparing the AM array to derive the Schlumberger electrode array with the results of the ABM array measured Schlumberger electrode array,the results shows that the two results are basically the same. The research results show that this method can be powered by a once AM array work,getting all kinds of electrical method data,this method can improve the network parallel electrical method detection,it also can get multi-angle analysis the object's electrical characteristics and differences.
引文
[1]董浩斌,王传雷.高密度电法的发展与应用[J].地学前缘,2003,10(1):171.
[2]严加永,孟贵祥,吕庆田,等.高密度电法的进展与展望[J].物探与化探,2012,36(4):576.
[3]刘盛东,张平松.分布式并行智能电极电位差信号采集方法[P].中国专利,zl200410014020.0,2006-7-26.
[4]戴前伟,邰晓勇,王鹏飞.超高密度电法的对比分析研究[J].工程勘察,2013,41(9):75-79.
[5]冯德山,杨炳坤,戴前伟,等.超高密度电法全四极装置正反演[J].地球物理学进展,2014,29(2):718-724.
[6]Greenhalgh S A,Zhou B,Green A G.Solutions algorithms and inter relations for local minisation search geophysical inversion[J].Journal of Geophysics and engineering,2006,3:101-113.
[7]刘盛东,刘士刚,吴荣新,等.网络并行电法仪与稳态电法勘探方向[J].中国科技成果,2007,7(24):31-36.
[8]刘盛东,吴荣新,张平松,等.三维并行电法勘探技术与矿井水害探查[J].煤炭学报,2009,34(7):927-932.
[9]曹煜.并行直流电法成像技术研究[D].合肥:安徽理工大学,2008.
[10]胡水根.网络并行电法仪器的研制[D].合肥:安徽理工大学,2006:23-25.
[11]胡水根.电法勘探中并行数据采集与传统数据采集效率的比较研究[J].地球物理学进展,2010,25(2):612-617.
[12]傅良魁.电法勘探教程[M].北京:地质出版社,1983:38-40.
[13]李金铭.地电场与电法勘探[M].北京:地质出版社,2005:164-169.
[2]严加永,孟贵祥,吕庆田,等.高密度电法的进展与展望[J].物探与化探,2012,36(4):576.
[3]刘盛东,张平松.分布式并行智能电极电位差信号采集方法[P].中国专利,zl200410014020.0,2006-7-26.
[4]戴前伟,邰晓勇,王鹏飞.超高密度电法的对比分析研究[J].工程勘察,2013,41(9):75-79.
[5]冯德山,杨炳坤,戴前伟,等.超高密度电法全四极装置正反演[J].地球物理学进展,2014,29(2):718-724.
[6]Greenhalgh S A,Zhou B,Green A G.Solutions algorithms and inter relations for local minisation search geophysical inversion[J].Journal of Geophysics and engineering,2006,3:101-113.
[7]刘盛东,刘士刚,吴荣新,等.网络并行电法仪与稳态电法勘探方向[J].中国科技成果,2007,7(24):31-36.
[8]刘盛东,吴荣新,张平松,等.三维并行电法勘探技术与矿井水害探查[J].煤炭学报,2009,34(7):927-932.
[9]曹煜.并行直流电法成像技术研究[D].合肥:安徽理工大学,2008.
[10]胡水根.网络并行电法仪器的研制[D].合肥:安徽理工大学,2006:23-25.
[11]胡水根.电法勘探中并行数据采集与传统数据采集效率的比较研究[J].地球物理学进展,2010,25(2):612-617.
[12]傅良魁.电法勘探教程[M].北京:地质出版社,1983:38-40.
[13]李金铭.地电场与电法勘探[M].北京:地质出版社,2005:164-169.