Interpretation of resonance frequencies recorded during hydraulic fracturing treatments

Author(s)
Jean-Baptiste Tary, Mirko van der Baan, David W. Eaton
Abstract

Hydraulic fracturing treatments are often monitored by strings of geophones deployed in boreholes. Instead of picking discrete events only, we here use time-frequency representations of continuous recordings to identify resonances in two case studies. This paper outlines an interpretational procedure to identify their cause using a subdivision into source, path, and receiver-side effects. For the first case study, two main resonances are observed both at depth by the downhole geophones and on the surface by two broadband arrays. The two acquisition networks have different receiver and path effects, yet recorded the same resonances; these resonances are therefore likely generated by source effects. The amplitude pattern at the surface arrays indicates that these resonances are probably due to pumping operations. In the second case study, selective resonances are detected by the downhole geophones. Resonances coming from receiver effects are either lower or higher frequency, and wave propagation modeling shows that path effects are not significant. We identify two possible causes within the source area, namely, eigenvibrations of fractures or non-Darcian flow within the hydraulic fractures. In the first situation, 15-30 m long fluid-filled cracks could generate the observed resonances. An interconnected fracture network would then be required, corresponding to mesoscale deformation of the reservoir. Alternatively, systematic patterns in non-Darcian fluid flow within the hydraulic fracture could also be their leading cause. Resonances can be used to gain a better understanding of reservoir deformations or dynamic fluid flow perturbations during fluid injection into hydrocarbon and geothermal reservoirs, CO

2 sequestration, or volcanic eruptions.

Organisation(s)
Department of Meteorology and Geophysics
External organisation(s)
University of Alberta, University of Calgary
Journal
Journal of Geophysical Research
Volume
119
Pages
1295-1315
No. of pages
21
ISSN
0148-0227
DOI
https://doi.org/10.1002/2013JB010904
Publication date
02-2014
Peer reviewed
Yes
Austrian Fields of Science 2012
105102 General geophysics
Keywords
ASJC Scopus subject areas
Geochemistry and Petrology, Geophysics, Earth and Planetary Sciences (miscellaneous), Space and Planetary Science
Portal url
https://ucrisportal.univie.ac.at/en/publications/57e0473a-1046-4747-879c-7a27b719d3e2