Application of a streamer resistivity survey in a shallow brackish-water reservoir
Sung-Ho Song 1 In-Ky Cho 2 31 Rural Research Institute, Korea Rural Community Corporation, Ansan 425-170, Korea.
2 Department of Geophysics, Kangwon National University, Chuncheon, Kangwondo 200-701, Korea.
3 Corresponding author. Email: choik@kangwon.ac.kr
Exploration Geophysics 40(2) 206-213 https://doi.org/10.1071/EG08126
Submitted: 17 November 2008 Published: 17 June 2009
Abstract
To delineate the resistivity structure of sub-bottom sediments in a shallow brackish-water reservoir in the western coastal area of Korea, we carried out a streamer resistivity survey using a dipole–dipole array. First, through numerical testing, we confirmed that the resistivity method with a dipole–dipole array could be applied in a shallow marine environment, when the resistivity contrast between water and the underlying sediments ranges from a factor of 3 to 5. Also, inversion with a water layer explicitly included is more effective than the conventional inversion method in resolving power, which we confirmed by observing that the inversion results for synthetic datasets matched better when a water layer was included in the inversion procedure.
After constructing a data acquisition system composed of a resistivity meter, GPS, and echo sounder, and developing data processing software, we conducted a streamer resistivity survey and inverted the data obtained to identify the hydrogeological sequences and sediment characteristics at the bottom of the shallow brackish-water reservoir. Drill logs identified three sediment layers, including silty sand, fine sand, and mixed sand. The resistivity distributions from inversion matched the resistivity ranges measured on materials obtained by sampling near the drilling points. We constructed a contour map of the top of the mixed-sand layer, using semivariogram analysis. Comparing these results with the drilling results, the depth to each layer, and the measured and estimated resistivity range of the materials, also corresponded to resistivity profile. From this study, we are assured that the streamer resistivity method would be a useful tool for surveying shallow brackish-water reservoirs.
Key words: brackish-water reservoir, inversion, semivariogram, streamer resistivity survey.
Acknowledgments
The research was partially supported by a grant (code number 3-3-3) from Sustainable Water Resources Research Centre of 21st Century Frontier Research Programs. The authors also thank the Ministry for Food, Agriculture, Forestry and Fisheries for financial support, and are grateful to Dr G. S. Lee, Miss M. K. Kang and Mr Y. I. Kim at the Rural Research Institute for their assistance with data acquisition.
Baumgartner, F., and Christensen, N. B., 1998, Analysis and application of a non-conventional underwater geoelectrical method in Lake Geneva, Switzerland: Geophysical Prospecting 46, 527–541.
| Crossref | GoogleScholarGoogle Scholar |
Kim, J. H., Yi, M. J., Song, Y., Cho, S. J., Lee, S. K., Son, J. S., and Chung, S. H., 2002, A Study on the DC Resistivity Method to Image the Underground Structure Beneath River or Lake Bottom: Mulli-Tamsa 5, 223–235.[Korean with English abstract]
Yang, C. H., You, J. I., and Lin, C. P., 2002, Delineating lake bottom structure by resistivity image profiling on water surface: Terrestrial Atmospheric and Oceanic Sciences 13, 39–52.
| CAS |
Yi, M. J., Kim, J. H., and Chung, S. H., 2003, Enhancing the resolving power of least-square inversion with active constraint balancing: Geophysics 68, 931–941.
| Crossref | GoogleScholarGoogle Scholar |