Kyle Lewallen scite author profile

[1] The effect of pore fluids on seismic wave attenuation in carbonate rocks is important for interpreting remote sensing observations of carbonate reservoirs undergoing enhanced oil recovery. Here we measure the elastic moduli and attenuation in the laboratory for five carbonate samples with 20% to 30% porosity and permeability between 0.03 and 58.1 mdarcy. Contrary to most observations in sandstones, bulk compressibility losses dominate over shear wave losses for dry samples and samples fully saturated with either liquid butane or brine. This observation holds for four out of five samples at seismic (10-1000 Hz) and ultrasonic frequencies (0.8 MHz) and reservoir pressures. Attenuation modeled from the modulus data using Cole-Cole relations agrees in that the bulk losses are greater than the shear losses. On average, attenuation increases by 250% when brine substitutes a light hydrocarbon in these carbonate rocks. For some of our samples, attenuation is frequency-dependent, but in the typical exploration frequency range (10-100 Hz), attenuation is practically constant for the measured samples.

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Consolidation of a double-porosity medium

Lewallen

Wang

1998

International Journal of Solids and Structures

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A marine dipole source for low frequency seismic acquisition

Meier

Duren

Lewallen

et al. 2015

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A comparison of streamer and OBC seismic data at Beryl Alpha field, UK North Sea

Stewart

Shatilo

Jing

et al. 2004

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Seismic Characterization of Fractured Tight Gas Reservoirs, Piceance Basin, Colorado

Lewallen¹,

Chen²,

Wu³

2007

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Kyle Lewallen

Seismic wave attenuation in carbonates

Consolidation of a double-porosity medium

A marine dipole source for low frequency seismic acquisition

A comparison of streamer and OBC seismic data at Beryl Alpha field, UK North Sea

Seismic Characterization of Fractured Tight Gas Reservoirs, Piceance Basin, Colorado

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