Geoelectric Configuration and Data Processing Design to Identification and Position of Shallow Heavy Metal Waste (Zn)

This paper presented a practical with empiric analysis and applied evaluation of the robust technique and shows that significant performance benefits can be achieved in geoelectric resistivity applications to identification and position of shallow heavy metal waste (Zn). These benefits are demonstrated in field trials of a new design configuration and data processing Geoelectric methods. An original contribution has been made in establishing a procedure for the measurements of Geoelectric for shallow heavy metal Zn waste on the field scale. This enables the maximum resolution of a robust system to be characterized by shallow heavy metal Zn waste as a basic analogue recording geoelectric system with multi electrodes configuration variation. These expressions prove to be helpful to design configuration and data processing in characterizing geoelectric performance systems (raised current, various configurations of the electrode) and could improve data quality and allow information other than conductor depth to be collected for a defined application.