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Exploration Geophysics Exploration Geophysics Society
Journal of the Australian Society of Exploration Geophysicists
RESEARCH ARTICLE

Seismic-while-drilling data processing with seismic interferometry in the Daqing Oilfield experiment

Hongtao Liu 1 Weichuan Huang 2 4 Yuquan Li 3
+ Author Affiliations
- Author Affiliations

1 No. 7 Oil Production Plant of Daqing Oilfield, Daqing, Heilongjiang 163517, China.

2 Institute of Geophysics, China Earthquake Administration, Beijing 100081, China.

3 Logging and Testing Services Company of Daqing Oilfield Co. Ltd, Daqing, Heilongjiang 163411, China.

4 Corresponding author. Email: sucun2003@163.com

Exploration Geophysics 45(3) 164-170 https://doi.org/10.1071/EG13078
Submitted: 2 September 2013  Accepted: 21 January 2014   Published: 3 March 2014

Abstract

Seismic interferometry was used to process the data collected with seismic-while-drilling (SWD) experiments at the Daqing Oilfield. The experiments simultaneously recorded the data at the drilling stem and on the ground. After conducting the frequency and the energy property analysis, the data was processed using the correlation and deconvolution method. Seismic data was then obtained from excitation of the drill bit. The result maps show that the deconvolution method can suppress the source effects and enhance the resolution of the profile, and that the vertical stacks enhance the seismic response of the subsurface. The interferometry process after band-filtering can obtain maps with very high resolution. Seismic interferometry by deconvolution shows great advantages based on the results of this experimental data. The method can also be applied to the SWD data and the ambient seismic data to obtain better processing results.

Key words: deconvolution, Kirchhoff migration, seismic interferometry, seismic-while-drilling.


References

Claerbout, J. F., 1968, Synthesis of a layered medium from its acoustic transmission response: Geophysics, 33, 264–269
Synthesis of a layered medium from its acoustic transmission response:Crossref | GoogleScholarGoogle Scholar |

Draganov, D. S., Campman, X., Thorbecke, J. W., Verdel, A., and Wapenaar, K., 2009, Reflection images from ambient seismic noise: Geophysics, 74, A63–A67
Reflection images from ambient seismic noise:Crossref | GoogleScholarGoogle Scholar |

Katz, L. J., 1990, Inverse seismic profiling while drilling: U.S. Patent No. 5012453.

Korneev, V., and Bakulin, A., 2006, On the fundamentals of the virtual source method: Geophysics, 71, A13–A17
On the fundamentals of the virtual source method:Crossref | GoogleScholarGoogle Scholar |

Meng, F., and Schuster, G. T., 1997, Autocorrelogram imaging of Friendswood RVSP data: Annual Utah Report, 320–338.

Rector, J. W., and Marion, B. P., 1991, The use of drill-bit energy as a downhole seismic source: Geophysics, 56, 628–634
The use of drill-bit energy as a downhole seismic source:Crossref | GoogleScholarGoogle Scholar |

Schuster, G. T., and Rickett, J., 2000, Daylight imaging in V(X,Y,Z) media: Midyear report of Stanford Exploration Project and UTAM, 2000.

Vasconcelos, I., and Snieder, R., 2008a, Interferometry by deconvolution, part 1—theory for acoustic waves and numerical examples: Geophysics, 73, S115–S128
Interferometry by deconvolution, part 1—theory for acoustic waves and numerical examples:Crossref | GoogleScholarGoogle Scholar |

Vasconcelos, I., and Snieder, R., 2008b, Interferometry by deconvolution, part 2—theory for elastic waves and application to drill-bit seismic imaging: Geophysics, 73, S129–S141
Interferometry by deconvolution, part 2—theory for elastic waves and application to drill-bit seismic imaging:Crossref | GoogleScholarGoogle Scholar |

Wapenaar, K., van der Neut, J., Ruigrok, E., Draganov, D., Hunziker, J., Slob, E., Thorbecke, J., and Snieder, R., 2011, Seismic interferometry by crosscorrelation and by multidimensional deconvolution: a systematic comparison: Geophysical Journal International, 185, 1335–1364
Seismic interferometry by crosscorrelation and by multidimensional deconvolution: a systematic comparison:Crossref | GoogleScholarGoogle Scholar |