3D Vertical Seismic Profiling Acquired Using Fibre-Optic Sensing Das – Results From The CO2CRC Otway Project

Julia Correa; Barry Freifeld; Michelle Robertson; Roman Pevzner; Andrej Bona; Dmitry Popik; Konstantin Tertyshnikov; Thomas Daley

doi:10.1071/ASEG2018abW8_3B

1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration

ISSN: 2202-0586
E-ISSN:

oa 3D Vertical Seismic Profiling Acquired Using Fibre-Optic Sensing Das – Results From The CO2CRC Otway Project
Authors Julia Correa^a, Barry Freifeld^b, Michelle Robertson^c, Roman Pevzner^d, Andrej Bona^e, Dmitry Popik^f, Konstantin Tertyshnikov^g and Thomas Daley^h
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^a Curtin University/CO2CRC, Perth, , Australia, [email protected] ^b Lawrence Berkeley National Laboratory, Berkeley, , CA, , USA, [email protected] ^c Lawrence Berkeley National Laboratory, Berkeley, , CA, , USA, [email protected] ^d Curtin University/CO2CRC, Perth, , Australia, [email protected] ^e Curtin University/CO2CRC, Perth, , Australia, [email protected] ^f Curtin University/CO2CRC, Perth, , Australia, [email protected] ^g Curtin University/CO2CRC, Perth, , Australia, [email protected] ^h Lawrence Berkeley National Laboratory, Berkeley, , CA, , USA, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2018, Issue 1st Australasian Exploration Geoscience Conference – Exploration Innovation Integration, Dec 2018, p. 1 - 5
DOI: https://doi.org/10.1071/ASEG2018abW8_3B
- Published online: 01 Dec 2018

Abstract

Distributed Acoustic Sensing (DAS) is an optical interferometric method for acquisition of acoustic and seismic signals. It uses laser pulses that travel along the length of a fibre-optic cable and backscatter as they encounter small inconsistencies in the fibre. Impinging seismic waves cause strain on the cable, resulting in differences in phase of the backscattered light. Interest in DAS has increased significantly in the past decade as it is particularly suited for VSP acquisitions, including for permanent reservoir monitoring. Fibre-optic cables can be installed permanently in the well, cemented behind the casing or attached to tubing; they offer a relatively cheaper and efficient solution when compared to conventional borehole sensors.

This study is part of the CO2CRC Otway Project. The Otway Project site is located approximately 240 km south-west of Melbourne, Australia. The Stage 2C of the project aims to monitor a small injection (15 kt) of CO2/CH4 gas mixture at a depth of approximately 1500 m. Here, we show the results of a 3D VSP survey acquired using DAS cable deployed on production tubing in the injector well.

The DAS up-going wavefield shows a high level of noise. However, DAS is able to record the main reflections, including at the injection depth. After 3D migration of the data, noise levels reduce significantly. Events on DAS inline match with events on a corridor stack produced from a geophone check-shot data. Due to the directionality pattern, DAS was only able to image up to approximately 300 m radius from the well.

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References

Correa, J. C., Dean, T., Van Zaanen, L., Tertyshnikov, K.V., Pevzner, R., and Bona, A., 2017, A comparison of DAS and geophones for VSP acquisition at a dedicated field laboratory: 79th EAGE Conference and Exhibition 2017, Paris, Extended Abstracts.
Jenkins, C.R., Cook, P.J., Ennis-King, J., Undershultz, J., Boreham, C., Dance, T., de Caritat, P., Etheridge, D.M., Freifeld, B.M., Hortle, A., Kirste, D., Paterson, L., Pevzner, R., Schacht, U., Sharma, S., Stalker, L., Urosevic, M., 2012, Safe storage and effective monitoring of CO2 in depleted gas fields. Proceedings of the National Academy of Sciences 109, E35-E41.
Kuvshinov, B. N., 2015, Interaction of helically wound fibre-optic cables with plane seismic waves: Geophysical Prospecting, 64, 671- 688.
Mateeva, A., Mestayer, J., Yang, Z., Lopez, J., Wills, P., Roy, J., and Brown., T., 2013, Dual-Well 3D VSP by DAS: SEG 2013 Annual Meeting, Houston, Extended Abstract.
Parker, T., Shatalin, S., and Farhadiroushan, M., 2014, Distributed Acoustic Sensing-a new tool for seismic applications: First Break, 32, no. 2, 61-69.

/content/journals/10.1071/ASEG2018abW8_3B

Article Type: Research Article

Keyword(s): 3D VSP; Distributed Acoustic Sensing; fibre-optics sensing; Vertical Seismic Profiling

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oa 3D Vertical Seismic Profiling Acquired Using Fibre-Optic Sensing Das – Results From The CO2CRC Otway Project

Abstract

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