Assessment of the permanent seismic sources for borehole seismic monitoring applications: CO2CRC Otway Project
Author:
Affiliation:
1. Curtin University, Perth Australia
2. CO2CRC, Melbourne, Australia
3. Lawrence Berkeley National Laboratory, California, USA
Publisher
Informa UK Limited
Link
https://www.tandfonline.com/doi/pdf/10.1080/22020586.2019.12073157
Reference6 articles.
1. Correa J., Egorov A., Tertyshnikov K., Bona A., Pevzner R., Dean T., Freifeld B., Marshall S, 2017. Analysis of signal to noise and directivity characteristics of DAS VSP at near and far offsets — A CO2CRC Otway Project data example. The Leading Edge, 36(12), 994a1–994a7. https://doi.org/10.1190/tle36120994a1.1
2. Freifeld, B. M., R. Pevzner, S. Dou, J. Correa, T. M. Daley, M. Robertson, K. Tertyshnikov, T. Wood, J. Ajo-Franklin, M. Urosevic, and B. Gurevich, 2016. The CO2CRC Otway Project deployment of a distributed acoustic sensing network coupled with permanent rotary sources: 78th Annual International Conference & Exhibition, EAGE, Extended Abstracts.
3. Dou, S., Ajo-Franklin, J., Daley, T., Robertson, M., Wood, T., Freifeld, B., Pevzner, R., Correa, J., Tertyshnikov, K., Urosevic, M., Gurevich, B., 2016. Surface orbital vibrator (SOV) and fiber-optic DAS: Field demonstration of economical, continuous-land seismic time-lapse monitoring from the Australian CO2CRC Otway site. SEG Tech. Prog. Expand. Abstr. 2016, 5552–5556.
4. Dou, S., Wood, T., Ajo-Franklin, J., Robertson, M., Daley, T., Freifeld, B., Pevzner R., and Gurevich, B., 2017. Surface orbital vibrator for permanent seismic monitoring: A signal contents and repeatability appraisal. In SEG Technical Program Expanded Abstracts 2017 (pp. 5906-5910). Society of Exploration Geophysicists.
5. Parker T., Shatalin S., Farhadiroushan M, 2014. Distributed Acoustic Sensing–a new tool for seismic applications. First Break, 32, no. 2, 61-69.
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