Abstract
Magnetic resonance sounding (MRS) technology is the only geophysical means to directly and quantitatively detect groundwater and has achieved good results in hydrogeological prospecting applications. In recent years, researchers have conducted considerable research on the efficiency of a single instrument, yielding certain results. However, the overall work efficiency of this method has not been effectively determined in its application to a large-scale survey. Hence, we propose both a joint detection method for MRS that determines the minimum working distance when multiple systems operate simultaneously and a collaborative measurement method of dual systems operating simultaneously in a fixed range of work areas. The cooperative working mode of the instruments is tested in the detection area, and the working mode proposed in this paper is shown to effectively avoid measurement interference between systems. Compared with the working mode of a single set of instruments, the measurement efficiency is more than doubled. Through this research, the feasibility of multiple MRS instruments working together in the same work area is verified, which provides effective technical support for the rapid and high-efficiency utilization of MRS over a wide range of measurement areas.
Highlights
Accepted: 2 October 2021Magnetic resonance sounding (MRS) technology enables the direct detection of groundwater
When the linear distance in the work area is much larger than 30.8 km, two magnetic resonance sounding instruments can be used uninterruptedly at the same time, that is, in free-detection mode, effectively reducing the field time and increasing the efficiency of fieldwork
The working process is as follows: When a single instrument performs a single measurement, the excitation magnetic field is first generated by the transmitter module of the detection system, and it stops after
Summary
Magnetic resonance sounding (MRS) technology enables the direct detection of groundwater. A detection mode with two systems working together is proposed, which enables multiple detection systems to perform noninterference detection at the same time in a small detection area, and the working efficiency of magnetic resonance sounding technology is significantly improved. This method provides a technical reference for the large-scale application of magnetic resonance sounding detection methods
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