Using Geophysical Methods to Image Near-Surface Cylindrical Pipeline: A Case Study on Engineering Applications, Jordan
Conventional and modern geophysical methods have become presently ve ry popular and reliable tools to investigate the near- surface underground features for differe nt applications, such as engineering, geotechnical, environmental and groundwater aquifer characterization. Geophysical prospe cting techniques have gained great importance due to their non-invasive, cost- effective and fast field impl ementation. In this research, a geomagnetic survey and an electrical resistivity survey were used to investigate the magnetic and electrical resistivity anomaly responses and imaging of an underground Gas Pipeline (GPL). This GPL is in fact part of a major multinational project to transport gas from Egypt to Jordan and then to Syria, Lebanon and Turkey. Thus it crosses Jordan from Aqaba in the south to the Jordanian-Syrian borders in the north. The two geophysical methods were successful in locating and imaging the underg round GPL down to depths of 1 to 4 meters within different soil materials. The geophysi cal response revealed the GPL in terms of its dimensions and extension. In addition, the geoelectrical study proved to be an effective tool in mapping the subsurface lithology variations and shallow structural features such of interest (e.g. fractures , crakes and joints). Thereby, this shows the advantages of geophysical techniques in identifying the optimum site for excavation in case of any encountered trouble that could occur in a similar sub-surface engineering construc tion, in terms of reducing the amount of excavation to be made