Standard
SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS. / Maineult, A.; Revil, A.; Camerlynck, C.; Florsch, N.; Titov, K.
10e colloque GEOFCAN (Approche GEOphysique et structurale de l’organisation spatiale et du Fonctionnement des Couvertures pédologiques Anthropisées et Naturelles), les 8 et 9 novembre 2016 au BRGM à Orléans. . 2016.
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
Harvard
Maineult, A, Revil, A, Camerlynck, C, Florsch, N
& Titov, K 2016,
SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS. in
10e colloque GEOFCAN (Approche GEOphysique et structurale de l’organisation spatiale et du Fonctionnement des Couvertures pédologiques Anthropisées et Naturelles), les 8 et 9 novembre 2016 au BRGM à Orléans. . <
http://www.brgm.fr/content/programme-colloque-geofcan-2016>
APA
Maineult, A., Revil, A., Camerlynck, C., Florsch, N.
, & Titov, K. (2016).
SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS. In
10e colloque GEOFCAN (Approche GEOphysique et structurale de l’organisation spatiale et du Fonctionnement des Couvertures pédologiques Anthropisées et Naturelles), les 8 et 9 novembre 2016 au BRGM à Orléans. http://www.brgm.fr/content/programme-colloque-geofcan-2016
Vancouver
Maineult A, Revil A, Camerlynck C, Florsch N
, Titov K.
SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS. In 10e colloque GEOFCAN (Approche GEOphysique et structurale de l’organisation spatiale et du Fonctionnement des Couvertures pédologiques Anthropisées et Naturelles), les 8 et 9 novembre 2016 au BRGM à Orléans. . 2016
Author
Maineult, A. ; Revil, A. ; Camerlynck, C. ; Florsch, N.
; Titov, K. /
SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS. 10e colloque GEOFCAN (Approche GEOphysique et structurale de l’organisation spatiale et du Fonctionnement des Couvertures pédologiques Anthropisées et Naturelles), les 8 et 9 novembre 2016 au BRGM à Orléans. . 2016.
BibTeX
@inproceedings{ece8586f00e8400191eaf3d1a0acd3e5,
title = "SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS",
abstract = "In order to upscale the induced polarization (IP) response of porous media, from the pore scale to the sample scale, we implement a procedure to compute the complex resistivity response of random tube networks. The electrical resistivity of each tube follows a local Pelton model. By solving the conservation laws, the macroscopic IP response of the network is solved, which appears to also obey a Pelton resistivity model. The macroscopic Cole-Cole exponent is always lower than its local value, and diminishes with increasing heterogeneity. The pore network method seems to be a promising tool for studying the upscaling of the IP response of porous media.",
keywords = "induced polarization, complex resistivity, tube networks, upscaling",
author = "A. Maineult and A. Revil and C. Camerlynck and N. Florsch and K. Titov",
year = "2016",
month = nov,
day = "9",
language = "English",
booktitle = "10e colloque GEOFCAN (Approche GEOphysique et structurale de l{\textquoteright}organisation spatiale et du Fonctionnement des Couvertures p{\'e}dologiques Anthropis{\'e}es et Naturelles), les 8 et 9 novembre 2016 au BRGM {\`a} Orl{\'e}ans.",
}
RIS
TY - GEN
T1 - SPECTRAL INDUCED POLARIZATION USING TUBE NETWORKS
AU - Maineult, A.
AU - Revil, A.
AU - Camerlynck, C.
AU - Florsch, N.
AU - Titov, K.
PY - 2016/11/9
Y1 - 2016/11/9
N2 - In order to upscale the induced polarization (IP) response of porous media, from the pore scale to the sample scale, we implement a procedure to compute the complex resistivity response of random tube networks. The electrical resistivity of each tube follows a local Pelton model. By solving the conservation laws, the macroscopic IP response of the network is solved, which appears to also obey a Pelton resistivity model. The macroscopic Cole-Cole exponent is always lower than its local value, and diminishes with increasing heterogeneity. The pore network method seems to be a promising tool for studying the upscaling of the IP response of porous media.
AB - In order to upscale the induced polarization (IP) response of porous media, from the pore scale to the sample scale, we implement a procedure to compute the complex resistivity response of random tube networks. The electrical resistivity of each tube follows a local Pelton model. By solving the conservation laws, the macroscopic IP response of the network is solved, which appears to also obey a Pelton resistivity model. The macroscopic Cole-Cole exponent is always lower than its local value, and diminishes with increasing heterogeneity. The pore network method seems to be a promising tool for studying the upscaling of the IP response of porous media.
KW - induced polarization
KW - complex resistivity
KW - tube networks
KW - upscaling
M3 - Conference contribution
BT - 10e colloque GEOFCAN (Approche GEOphysique et structurale de l’organisation spatiale et du Fonctionnement des Couvertures pédologiques Anthropisées et Naturelles), les 8 et 9 novembre 2016 au BRGM à Orléans.
ER -