Title :
Surface Ground-penetrating Radar monitoring of water infiltration inside a ring infiltrometer
Author :
Léger, Emmanuel ; Saintenoy, Albane
Author_Institution :
Fac. des Sci., Univ. Paris-Sud XI, Orsay, France
Abstract :
In this study, we test the use of a surface Ground-penetrating Radar (GPR) for monitoring the water infiltration using a single ring infiltrometer similar to the Muntz apparatus [1]. We performed an experiment in a natural Fontainebleau sand, with 1600 MHz antennae, using a 60-cm diameter metallic ring partially buried down to 10 cm. During the infiltration of a 5-cm layer of water and the following drainage, GPR traces are acquired every 5 s from a static position inside the ring. We performed gravimetric measurements on several soil samples, evaluated the retention curve function using a laboratory hanging water column and used hydrodynamical and electromagnetic simulations to help with the GPR data interpretation.
Keywords :
density measurement; geophysical fluid dynamics; ground penetrating radar; hydrological techniques; moisture; radar antennas; remote sensing by radar; sand; soil; Fontainebleau sand; GPR; antenna; electromagnetic simulation; frequency 1600 MHz; gravimetric measurement; hanging water column; hydrodynamical simulation; metallic ring; retention curve function; ring infiltrometer; surface ground penetrating radar monitoring; water infiltration; Antennas; Conductivity; Geophysical measurements; Ground penetrating radar; Monitoring; Soil; Soil measurements;
Conference_Titel :
Ground Penetrating Radar (GPR), 2012 14th International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4673-2662-9
DOI :
10.1109/ICGPR.2012.6254948
