Cross-polarized GPR imaging of fracture flow channeling

Georgios P. Tsoflias; Christopher Perll; Matthew Baker; Matthew W. Becker

doi:10.1007/s12583-015-0612-1

Journal of Earth Science ›› 2015, Vol. 26 ›› Issue (6) : 776 -784. DOI: 10.1007/s12583-015-0612-1

Article

Cross-polarized GPR imaging of fracture flow channeling

Author information +

History +

PDF

Abstract

Ground penetrating radar (GPR) can be used to image fractures and monitor fluid flow in the subsurface. Conventional GPR imaging uses single-polarization, co-polarized acquisition. We examine the use of cross-polarized GPR signals for imaging flow channeling in a discrete horizontal fracture. Numerical modeling (FDTD) demonstrates that when the fracture channel is oriented at an oblique angle to the survey line, depolarization of the GPR signal results in scattered energy along the cross-polarized components. When the channel is oriented parallel or orthogonal to the survey line, all scattered energy is captured by the co-polarized components and no signal is present in the cross-polarized orientation. Multipolarization, time-lapse 3D GPR field data were acquired at the Altona Flat Rock test site in New York State. The GPR surveys were conducted during background fresh fracture water conditions and during a natural gradient saline tracer test which was used to highlight flow channels along a sub-horizontal fracture. Amplitude analysis of the cross-polarized data reveals flow channeling that is in agreement with the co-polarized GPR images and with independent hydraulic tests. This investigation demonstrates that cross-polarized components of GPR signals can be used to enhance imaging of flow channels in fractured media.

Keywords

GPR / single-polarization / cross-polarized data / rapid flow / saline tracer / fractured rock

Cite this article

Download citation ▾

Georgios P. Tsoflias, Christopher Perll, Matthew Baker, Matthew W. Becker. Cross-polarized GPR imaging of fracture flow channeling. Journal of Earth Science, 2015, 26(6): 776-784 DOI:10.1007/s12583-015-0612-1

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Baker M. Ground-Penetrating Radar Imaging of Fluid Flow through a Discrete Fracture: [Dissertation], 2014, 207.

[2]	Becker M. W., Tsoflias G. P. Comparing Flux- Averaged and Resident Concentration in a Fractured Bedrock Using Ground Penetrating Radar. Water Resources Research, 2010, 46 9 09518

[3]	Becker M. W., Tsoflias G. P., Baker M., . Confirmation of Hydraulic, Tracer, and Heat Transfer Characterization of a Fractured Bedrock Using Ground Penetrating Radar. Proceedings of Fortieth Workshop on Geothermal Reservoir Engineering, 2015

[4]	Daniels J. J., Wielopolski L., Radzevicius S., . 3D GPR Polarization Analysis for Imaging Complex Objects, 2003

[5]	Davis J. L., Annan A. P. Ground-Penetrating Radar for High-Resolution Mapping of Soil and Rock Stratigraphy 1. Geophysical Prospecting, 1989, 37(5): 531-551.

[6]	Day-Lewis F. D., Lane J. W., Harris J. M., . Time-Lapse Imaging of Saline-Tracer Transport in Fractured Rock Using Difference-Attenuation Radar Tomography. Water Resources Research, 2003, 39 10 1290

[7]	Deparis J., Garambois S. On the Use of Dispersive APVO GPR Curves for Thin-Bed Properties Estimation: Theory and Application to Fracture Characterization. Geophysics, 2009, 74(1): J1-J12.

[8]	Dorn C., Linde N., Borgne T. L., . Single-Hole GPR Reflection Imaging of Solute Transport in a Granitic Aquifer. Geophysical Research Letters, 2011, 38 8 08401

[9]	Dorn C., Linde N., Borgne T. L., . Inferring Transport Characteristics in a Fractured Rock Aquifer by Combining Single-Hole Ground-Penetrating Radar Reflection Monitoring and Tracer Test Data. Water Resources Research, 2012, 48 11 11521

[10]	Giannopoulos A. Modelling Ground Penetrating Radar by GprMax. Construction and Building Materials, 2005, 19(10): 755-762.

[11]	Grasmueck M. 3-D Ground-Penetrating Radar Applied to Fracture Imaging in Gneiss. Geophysics, 1996, 61: 1050-1064.

[12]	Grasmueck M., Weger R., Horstmeyer H. Three-Dimensional Ground-Penetrating Radar Imaging of Sedimentary Structures, Fractures, and Archaeological Features at Submeter Resolution. Geology, 2004, 32(11): 933-936.

[13]	Geophysics, 2005, 70 1

[14]	Guiltinan E., Becker M. W. Measuring Well Hydraulic Connectivity in Fractured Bedrock Using Periodic Slug Tests. Journal of Hydrology, 2015, 521: 100-107.

[15]	Hawkins A. J., Becker M. W. Measurement of the Spatial Distribution of Heat Exchange in a Geothermal Analog Bedrock Site Using Fiber Optic Distributed Temperature Sensing, 2012

[16]	Jeannin M., Garambois S., Grégoire C., . Multiconfiguration GPR Measurements for Geometric Fracture Characterization in Limestone Cliffs (Alps). Geophysics, 2006, 71(3): B85-B92.

[17]	Lehmann F., Boerner D. E., Holliger K., . Multicomponent Georadar Data: Some Important Implications for Data Acquisition and Processing. Geophysics, 2000, 65(5): 1542-1552.

[18]	Liu S., Sato M. Subsurface Water-Filled Fracture Detection by Borehole Radar: A Case History. Journal of Environmental & Engineering Geophysics, 2006, 11(2): 95-101.

[19]	Mansour K., Sato M. Subsurface Fracture Characterisation Using Full Polarimetric Borehole Radar Data Analysis with Numerical Simulation Validation. Exploration Geophysics, 2012, 43(2): 125-135.

[20]	Miwa T., Sato M., Niitsuma H. Subsurface Fracture Measurement with Polarimetric Borehole Radar. IEEE Transactions on Geoscience and Remote Sensing, 1999, 37(2): 828-837.

[21]	Perll C. Evaluating GPR Polarization Effects for Imaging Fracture Channeling and Estimating Fracture Properties: [Dissertation]., 2013, 157.

[22]	Radzevicius S. J., Daniels J. J. Ground Penetrating Radar Polarization and Scattering from Cylinders. Journal of Applied Geophysics, 2000, 45(2): 111-125.

[23]	Rayburn J. A., Knuepfer P. L. K., Franzi D. A. A Series of Large, Late Wisconsinan Meltwater Floods through the Champlain and Hudson Valleys, New York State, USA. Quaternary Science Reviews, 2005, 24(22): 2410-2419.

[24]	Roberts R. L., Daniels J. J. Analysis of GPR Polarization Phenomena. Journal of Environmental & Engineering Geophysics, 1996, 1(2): 139-157.

[25]	Sambuelli L., Calzoni C. Estimation of Thin Fracture Aperture in a Marble Block by GPR Sounding. Bollettino di Geofisica Teorica ed Applicata, 2010, 51: 239-252.

[26]	Sassen D. S., Everett M. E. 3D Polarimetric GPR Coherency Attributes and Full-Waveform Inversion of Transmission Data for Characterizing Fractured Rock. Geophysics, 2009, 74(3): J23-J34.

[27]	Sato M., Miwa T. Polarimetric Borehole Radar System for Fracture Measurement. Subsurface Sensing Technologies and Applications, 2000, 1(1): 161-175.

[28]	Seol S. J., Kim J. H., Song Y., . Finding the Strike Direction of Fractures Using GPR. Geophysical Prospecting, 2001, 49(3): 300-308.

[29]	Streich R., van der Kruk J. Accurate Imaging of Multicomponent GPR Data Based on Exact Radiation Patterns. IEEE Transactions on Geoscience and Remote Sensing, 2007, 45(1): 93-103.

[30]	Talley J., Baker G. S., Becker M. W., . Four Dimensional Mapping of Tracer Channelization in Subhorizontal Bedrock Fractures Using Surface Ground Penetrating Radar. Geophysical Research Letters, 2005, 32 4 04401

[31]	Tsang C. F., Neretnieks I. Flow Channeling in Heterogeneous Fractured Rocks. Reviews of Geophysics, 1998, 36(2): 275-298.

[32]	Tsoflias G. P., Baker M., Becker M. W. Imaging Fracture Anisotropic Flow Channeling Using GPR Signal Amplitude and Phase, 2013, 4428-4433.

[33]	Tsoflias G. P., Baker M., Becker M. W. Field GPR Monitoring of Flow Channeling in Fractured Rock, 2012

[34]	Tsoflias G. P. GPR Imaging of Dual-Porosity Rocks: Insights to Fluid Flow. Leading Edge, 2008, 27(11): 1436-1445.

[35]	Tsoflias G. P., Becker M. W. Ground-Penetrating- Radar Response to Fracture-Fluid Salinity: Why Lower Frequencies are Favorable for Resolving Salinity Changes. Geophysics, 2008, 73(5): J25-J30.

[36]	Tsoflias G. P., Halihan T., Sharp J. M. Monitoring Pumping Test Response in a Fractured Aquifer Using Ground-Penetrating Radar. Water Resources Research, 2001, 37(5): 1221-1229.

[37]	Tsoflias G P, Hoch A. Investigating Multi-Polarization GPR Wave Transmission through Thin Layers: Implications for Vertical Fracture Characterization. Geophysical Research Letters, 2006, 33 20 L20401

[38]	Tsoflias G P, van Gestel J V, Stoffa P L, . Vertical Fracture Detection by Exploiting the Polarization Properties of Ground-Penetrating Radar Signals. Geophysics, 2004, 69(3): 803-810.

[39]	van der Kruk J, Wapenaar C P A, Fokkema J T, . Three-Dimensional Imaging of Multicomponent Ground-Penetrating Radar Data. Geophysics, 2003, 68(4): 1241-1254.

[40]	Villela A, Romo J M. Invariant Properties and Rotation Transformations of the GPR Scattering Matrix. Journal of Applied Geophysics, 2013, 90: 71-81.

[41]	Zhao J G, Sato M. Radar Polarimetry Analysis Applied to Single-Hole Fully Polarimetric Borehole Radar. IEEE Transactions on Geoscience and Remote Sensing, 2007, 44(12): 3547-3554.