Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar

Y. Takeshita; S. Morikami; T. Yamashita; S. Kuroda; T. Morii; M. Inoue

doi:10.1061/41103(376)27

Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar

Y. Takeshita, S. Morikami, T. Yamashita, S. Kuroda, T. Morii, M. Inoue

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Surface ground-penetrating radar (GPR) was assessed as a non-destructive method to measure the temporal and spatial variability of unsaturated seepage flow under uniform wetting conditions on a homogeneous sandy soil. GPR profile survey with 400MHz antenna was conducted. GPR reflected wave from advancing wetting front during uniform field infiltration experiments was used to map the wetting front depth variability with time. The dielectric constant of soil measured by vertical soil moisture probe below the ground surface was used as standard measures of soil moisture to compare with the GPR estimated unsaturated seepage flow behavior. The utility of our proposed GPR profile survey was demonstrated by using numerical seepage flow FEM analysis of field infiltration experiments. There was good agreement between computed and measured wetted zone movements in two-dimensional unsaturated seepage flow. Traceability of the wetting front depth variability with time was found by GPR profile survey.

Original language	English
Title of host publication	Experimental and Applied Modeling of Unsaturated Soils - Proceedings of the 2010 GeoShanghai International Conference
Pages	211-217
Number of pages	7
Edition	202 GSP
DOIs	https://doi.org/10.1061/41103(376)27
Publication status	Published - 2010
Event	2010 GeoShanghai International Conference - Experimental and Applied Modeling of Unsaturated Soils - Shanghai, China Duration: Jun 3 2010 → Jun 5 2010

Publication series

Name	Geotechnical Special Publication
Number	202 GSP
ISSN (Print)	0895-0563

Other

Other	2010 GeoShanghai International Conference - Experimental and Applied Modeling of Unsaturated Soils
Country/Territory	China
City	Shanghai
Period	6/3/10 → 6/5/10

Keywords

Measurement
Nondestructive tests
Radar
Seepage

ASJC Scopus subject areas

Civil and Structural Engineering
Architecture
Building and Construction
Geotechnical Engineering and Engineering Geology

Access to Document

10.1061/41103(376)27

Cite this

Takeshita, Y., Morikami, S., Yamashita, T., Kuroda, S., Morii, T., & Inoue, M. (2010). Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar. In Experimental and Applied Modeling of Unsaturated Soils - Proceedings of the 2010 GeoShanghai International Conference (202 GSP ed., pp. 211-217). (Geotechnical Special Publication; No. 202 GSP). https://doi.org/10.1061/41103(376)27

Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar. / Takeshita, Y.; Morikami, S.; Yamashita, T. et al.
Experimental and Applied Modeling of Unsaturated Soils - Proceedings of the 2010 GeoShanghai International Conference. 202 GSP. ed. 2010. p. 211-217 (Geotechnical Special Publication; No. 202 GSP).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Takeshita, Y, Morikami, S, Yamashita, T, Kuroda, S, Morii, T & Inoue, M 2010, Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar. in Experimental and Applied Modeling of Unsaturated Soils - Proceedings of the 2010 GeoShanghai International Conference. 202 GSP edn, Geotechnical Special Publication, no. 202 GSP, pp. 211-217, 2010 GeoShanghai International Conference - Experimental and Applied Modeling of Unsaturated Soils, Shanghai, China, 6/3/10. https://doi.org/10.1061/41103(376)27

Takeshita Y, Morikami S, Yamashita T, Kuroda S, Morii T, Inoue M. Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar. In Experimental and Applied Modeling of Unsaturated Soils - Proceedings of the 2010 GeoShanghai International Conference. 202 GSP ed. 2010. p. 211-217. (Geotechnical Special Publication; 202 GSP). doi: 10.1061/41103(376)27

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abstract = "Surface ground-penetrating radar (GPR) was assessed as a non-destructive method to measure the temporal and spatial variability of unsaturated seepage flow under uniform wetting conditions on a homogeneous sandy soil. GPR profile survey with 400MHz antenna was conducted. GPR reflected wave from advancing wetting front during uniform field infiltration experiments was used to map the wetting front depth variability with time. The dielectric constant of soil measured by vertical soil moisture probe below the ground surface was used as standard measures of soil moisture to compare with the GPR estimated unsaturated seepage flow behavior. The utility of our proposed GPR profile survey was demonstrated by using numerical seepage flow FEM analysis of field infiltration experiments. There was good agreement between computed and measured wetted zone movements in two-dimensional unsaturated seepage flow. Traceability of the wetting front depth variability with time was found by GPR profile survey.",

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AU - Inoue, M.

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AB - Surface ground-penetrating radar (GPR) was assessed as a non-destructive method to measure the temporal and spatial variability of unsaturated seepage flow under uniform wetting conditions on a homogeneous sandy soil. GPR profile survey with 400MHz antenna was conducted. GPR reflected wave from advancing wetting front during uniform field infiltration experiments was used to map the wetting front depth variability with time. The dielectric constant of soil measured by vertical soil moisture probe below the ground surface was used as standard measures of soil moisture to compare with the GPR estimated unsaturated seepage flow behavior. The utility of our proposed GPR profile survey was demonstrated by using numerical seepage flow FEM analysis of field infiltration experiments. There was good agreement between computed and measured wetted zone movements in two-dimensional unsaturated seepage flow. Traceability of the wetting front depth variability with time was found by GPR profile survey.

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Non-destructive measurements of unsaturated seepage flow using surface ground-penetrating radar

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Keywords

ASJC Scopus subject areas

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