Seismicity diagnostic of permeability creation from centimeter to subkilometer scales in crystalline rock during shear stimulation
article
Permeability evolves dynamically in the crust and mediates important natural and industrial processes in the subsurface. Episodic microearthquakes generate porosity and, thus, permeability by creating or reactivating frac tures. We constrain the form of the scaling relationship linking seismic moment (M0) to incremental permeability generation (Δk) through a series of laboratory fault reactivation experiments with absolute constraint on seismic moment. We demonstrate Δk − M0 proportionality at centimeter scale but confirm predictive power-law scaling using a first-order model as Δk = λM2∕3 0 from centimeter to subkilometer scale. Stress drop, fault roughness, and deformation modulus condition the prefactor λ, extending over 10 decades for reasonable natural parameter ranges. However, observed permeabilities are much more tightly constrained, with λ spanning only two orders of magnitude over length scales from centimeter to subkilometer, suggesting interdependencies in the controlling variables and rendering the relation as diagnostic in predicting fluid flow in crustal reservoirs.
Topics
TNO Identifier
1024212
Source
Science Advances, 12, pp. 1-10.
Pages
1-10