Joint inversion of ground-penetrating radar and thermal-hydrological data collected during a large-scale heater test (original) (raw)

2005

Abstract

A large-scale in situ heater test was conducted at Yucca Mountain, Nevada, in order to better understand the coupled thermal, hydrological, mechanical, and chemical processes that may occur in the fractured rock mass around a geologic repository for high-level radioactive waste. During and after the four-year heating phase of the test, time-lapse geophysical measurements (e.g., cross-borehole ground-penetrating radar) and thermal-hydrological data (e.g., temperature and neutron-probe-derived water content) were collected, making possible a novel application of hydrogeophysics. Here we describe a joint inversion methodology that combines geophysical and thermal-hydrological data to estimate (1) the thermal-hydrological parameters (such as permeability, porosity, thermal conductivity, and parameters describing the capillary pressure and relative permeability functions) that are necessary for modeling the flow of fluids and heat in the subsurface, and (2) the parameters of the petrophy...

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