Journal Article10.1190/1.1451573
Permeability characterization of the Soultz and Ogachi large-scale reservoir using induced microseismicity
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TL;DR: In this paper, a line source formulation of the diffusion equation was proposed for accounting for the situation where the injection is performed on a well section, and the results showed that the method is adequate to estimate large-scale permeability tensors at different depths in the reservoir.
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Abstract: Hydraulic fracturing is a common procedure to increase the permeability of a reservoir. It consists in injecting high-pressure fluid into pilot boreholes. These hydraulic tests induce locally seismic emission (microseismicity) from which large-scale permeability estimates can be derived assuming a diffusion-like process of the pore pressure into the surrounding stimulated rocks. Such a procedure is applied on six data sets collected in the vicinity of two geothermal sites at Soultz (France) and Ogachi (Japan). The results show that the method is adequate to estimate large-scale permeability tensors at different depths in the reservoir. Such an approach provides permeability of the medium before fracturing compatible with in situ measurements. Using a line source formulation of the diffusion equation rather than a classical point source approach, improvements are proposed for accounting in situation where the injection is performed on a well section. This technique applied to successive fluid-injection tests indicates an increase in permeability by an order of magnitude. The underestimates observed in some cases are attributed to the difference of scale at which the permeability is estimated (some 1 km 3 corresponding to the seismic active volume of rock compared to a few meters around the well for the pumping or pressure oscillation tests). One advantage of the proposed method is that it provides permeability tensor estimates at the reservoir scale.
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Citations
Seismogenic permeability, ks
TL;DR: In this article, the authors determined the hydraulic diffusivity value of fractures associated with induced seismicity to lie between 0.1 and 10 m2/s, which corresponds to a range of intrinsic permeability values between 5 × 10−16 and 5× 10−14 m2.
268
Microseismicity and permeability enhancement of hydrogeologic structures during massive fluid injections into granite at 3 km depth at the Soultz HDR site
Keith F. Evans,Hirokazu Moriya,Hiroaki Niitsuma,R. Jones,W.S. Phillips,Albert Genter,Judith Sausse,R. Jung,R. Baria +8 more
TL;DR: A high-rate injection of 20,000 m3 of water into granite between 2.8 and 3.4 km depth at the Soultz hot dry rock (HDR) test site in France in 1993 September led to a 200-fold increase in borehole transmissivity and produced a subvertical cloud of microseismicity of dimensions 0.5 km wide, 1.2 km long and oriented 25°NW as mentioned in this paper.
Permeability creation and damage due to massive fluid injections into granite at 3.5 km at Soultz: 1. Borehole observations
TL;DR: In this paper, the authors analyzed an unusually complete data set to determine the hydraulic and mechanical changes that occurred about a 3.6 km deep borehole in previously undisturbed granite because of massive fluid injections.
212
A Systematic Assessment of the Spatiotemporal Evolution of Fault Activation Through Induced Seismicity in Oklahoma and Southern Kansas
TL;DR: Schoenball et al. as mentioned in this paper performed a systematic study of the activity on several hundreds of identified faults and used 93 sequences with at least 30 events for a detailed analysis of their spatiotemporal evolution.
139
Microseismic monitoring of borehole fluid injections: Data modeling and inversion for hydraulic properties of rocks
Elmar Rothert,Serge A. Shapiro +1 more
TL;DR: In this article, micro-seismic data was used to measure in-situ hydraulic properties of rocks at interwell scales, providing information that could further guide operations to optimize field production.
136
References
Mechanics of deformation and acoustic propagation in porous media
TL;DR: In this paper, a unified treatment of the mechanics of deformation and acoustic propagation in porous media is presented, and some new results and generalizations are derived, including anisotropic media, solid dissipation, and other relaxation effects.
•Book
The Rock Physics Handbook: Tools for Seismic Analysis of Porous Media
Gary Mavko,Tapan Mukerji,Jack Dvorkin +2 more
- 01 Jan 2011
TL;DR: In this article, the authors present basic tools for elasticity and Hooke's law, effective media, granular media, flow and diffusion, and fluid effects on wave propagation for wave propagation.
The Rock Physics Handbook: Tools for seismic analysis of porous media second edition
G. Mavko,Tapan Mukerji,Jack Dvorkin +2 more
- 01 Jan 2014
TL;DR: In this paper, the authors menyaring sejumlah besar teori latar belakang and hasil laboratorium menjadi serangkaian bab ringkas ying memberikan solusi praktis untuk masalah dalam interpretasi data geofisika.
2.1K
The Rock Physics Handbook
Gary Mavko,Tapan Mukerji,Jack Dvorkin +2 more
- 09 Jan 2020
TL;DR: The third edition of the reference book as discussed by the authors has been thoroughly updated while retaining its comprehensive coverage of the fundamental theory, concepts, and laboratory results, and highlights applications in unconventional reservoirs, including water, hydrocarbons, gases, minerals, rocks, ice, magma and methane hydrates.
1.5K
•Book
NBS/NRC Steam Tables: Thermodynamic and Transport Properties and Computer Programs for Vapor and Liquid States of Water in SI Units,
Lester Haar,J. S. Gallagher,George S. Kell +2 more
- 01 Jan 1984
TL;DR: In this article, the Helmholtz Function is used to calculate the velocity of sound in the transport of compressed water and superheated steam in the critical region of a ship.
620