INTEGRATING LONG-OFFSET TRANSIENT ELECTROMAGNETICS (LOTEM) WITH SEISMICS IN AN EXPLORATION ENVIRONMENT

The applications of electromagnetics have increased in the past two de cades because of an improved understanding of the methods, improved se rvice availability, and the increased focus of exploration in the more complex reservoir characterization issues. For electromagnetic method s surface applications for hydrocarbon Exploration and Production are still a special case, while applications in borehole and airborne rese arch and for engineering and environmental objectives are routine. In the past, electromagnetic techniques, in particular deep transient ele ctromagnetics, made up a completely different discipline in geophysics , although many of the principles are similar to the seismic one. With an understanding of the specific problems related to data processing initially and then acquisition, the inclusion of principles learned fr om seismics happened almost naturally. Initially, the data processing was very similar to seismic full-waveform processing. The hardware was also changed to include multichannel acquisition systems, and the fie ld procedures became very similar to seismic surveying. As a consequen ce, the integration and synergism of the interpretation process is bec oming almost automatic. The long-offset transient electromagnetic (LOT EM) technique will be summarized from the viewpoint of its similarity to seismics. The complete concept of the method will also be reviewed. An interpretation case history that integrates seismic and LOTEM from a hydrocarbon area in China clearly demonstrates the limitations and benefits of the method.