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W2896950325 abstract "Fracture-scale heterogeneity plays an important role in driving dispersion, mixing and heat transfer in fractured rocks. Current approaches to characterize fracture scale flow and transport processes largely rely on indirect information based on the interpretation of tracer tests. Geophysical techniques used in parallel with tracer tests can offer time-lapse images indicative of the migration of electrically-conductive tracers away from the injection location. In this study, we present a methodology to invert time-lapse ground penetrating radar reflection monitoring data acquired during a push-pull tracer test to infer fracture-scale transport patterns and aperture distribution. We do this by using a probabilistic inversion based on a Markov chain Monte Carlo algorithm. After demonstration on a synthetic dataset, we apply the new inversion method to field data. Our main findings are that the marginal distribution of local fracture apertures is well resolved and that the field site is characterized by strong flow channeling, which is consistent with interpretations of heat tracer tests in the same injection fracture." @default.
W2896950325 created "2018-10-26" @default.
W2896950325 creator A5033313852 @default.
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W2896950325 creator A5061402015 @default.
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W2896950325 date "2018-12-01" @default.
W2896950325 modified "2023-09-30" @default.
W2896950325 title "Probabilistic inference of fracture-scale flow paths and aperture distribution from hydrogeophysically-monitored tracer tests" @default.
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W2896950325 cites W1554305577 @default.
W2896950325 cites W1589615196 @default.
W2896950325 cites W1610677200 @default.
W2896950325 cites W1632317815 @default.
W2896950325 cites W1844826426 @default.
W2896950325 cites W1900021043 @default.
W2896950325 cites W1901134081 @default.
W2896950325 cites W1921023296 @default.
W2896950325 cites W1954090063 @default.
W2896950325 cites W1965639359 @default.
W2896950325 cites W1970285635 @default.
W2896950325 cites W1977942292 @default.
W2896950325 cites W1978305759 @default.
W2896950325 cites W1984649414 @default.
W2896950325 cites W2008981917 @default.
W2896950325 cites W2021346135 @default.
W2896950325 cites W2022593932 @default.
W2896950325 cites W2022683096 @default.
W2896950325 cites W2024829251 @default.
W2896950325 cites W2026877505 @default.
W2896950325 cites W2027758958 @default.
W2896950325 cites W2030416562 @default.
W2896950325 cites W2031945933 @default.
W2896950325 cites W2034082479 @default.
W2896950325 cites W2039898829 @default.
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W2896950325 cites W2045190801 @default.
W2896950325 cites W2045350840 @default.
W2896950325 cites W2047938848 @default.
W2896950325 cites W2051875053 @default.
W2896950325 cites W2053132150 @default.
W2896950325 cites W2061508544 @default.
W2896950325 cites W2061576869 @default.
W2896950325 cites W2061988188 @default.
W2896950325 cites W2066085728 @default.
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W2896950325 cites W2071951111 @default.
W2896950325 cites W2073452624 @default.
W2896950325 cites W2082185795 @default.
W2896950325 cites W2086326746 @default.
W2896950325 cites W2090337580 @default.
W2896950325 cites W2105614270 @default.
W2896950325 cites W2108005402 @default.
W2896950325 cites W2114872079 @default.
W2896950325 cites W2117681582 @default.
W2896950325 cites W2121487927 @default.
W2896950325 cites W2130822794 @default.
W2896950325 cites W2134346186 @default.
W2896950325 cites W2139792091 @default.
W2896950325 cites W2144003770 @default.
W2896950325 cites W2151250028 @default.
W2896950325 cites W2153726500 @default.
W2896950325 cites W2155106710 @default.
W2896950325 cites W2167544181 @default.
W2896950325 cites W2170008375 @default.
W2896950325 cites W2274762179 @default.
W2896950325 cites W2470987681 @default.
W2896950325 cites W2514742039 @default.
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W2896950325 cites W2594055264 @default.
W2896950325 cites W2606643481 @default.
W2896950325 cites W2614061332 @default.
W2896950325 cites W3098919389 @default.
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W2896950325 doi "https://doi.org/10.1016/j.jhydrol.2018.10.004" @default.
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