Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study

ABSTRACT Seismic attenuation and velocity dispersion are potentially able to reveal the rock physical properties of the subsurface. Conventionally, a frequency‐independent quality factor ( Q ) is measured. This Q is equivalent to the total velocity dispersion in a seismic record and is inadequate fo...

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Published in:Geophysical Prospecting
Main Authors: Sun, Langqiu F., Milkereit, Bernd, Tisato, Nicola
Other Authors: National Natural Science Foundation of China
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2016
Subjects:
Canada
Mackenzie Delta
Northwest Territories
Online Access:http://dx.doi.org/10.1111/1365-2478.12410
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2F1365-2478.12410
https://onlinelibrary.wiley.com/doi/pdf/10.1111/1365-2478.12410
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spelling crwiley:10.1111/1365-2478.12410 2024-06-02T08:10:13+00:00 Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study Sun, Langqiu F. Milkereit, Bernd Tisato, Nicola National Natural Science Foundation of China 2016 http://dx.doi.org/10.1111/1365-2478.12410 https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2F1365-2478.12410 https://onlinelibrary.wiley.com/doi/pdf/10.1111/1365-2478.12410 en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor Geophysical Prospecting volume 64, issue 4, page 1016-1029 ISSN 0016-8025 1365-2478 journal-article 2016 crwiley https://doi.org/10.1111/1365-2478.12410 2024-05-03T10:50:12Z ABSTRACT Seismic attenuation and velocity dispersion are potentially able to reveal the rock physical properties of the subsurface. Conventionally, a frequency‐independent quality factor ( Q ) is measured. This Q is equivalent to the total velocity dispersion in a seismic record and is inadequate for analysing the attenuation mechanism or rock physical properties. Here a new method is proposed to extract the velocity dispersion curves so that more attributes can be obtained from full‐waveform multichannel sonic logging data, especially the critical frequency ( f c ) if it is within the bandwidth of the data. This method first decomposes the seismic data into a series of frequency components, computes the semblance of each frequency component for different velocity values, cross‐correlates the semblance matrices of adjacent frequency components to get the velocity gradients, and finally integrates to obtain a velocity dispersion curve. Results of this method are of satisfactory accuracy and robustness. This method is applied to the data acquired in Mallik 5L‐38 gas hydrate research well in Mackenzie Delta, Northwest Territories, Canada. The observed P‐wave velocity dispersion compares well with the geological setting. In the gas hydrate zone (about 900 m–1100 m), high concentration of gas hydrate causes very strong velocity dispersion and a distinct f c at about 15 kHz, likely due to strong scattering of centimetre‐scale inclusions of gas hydrate; concurrently, water flow in connected cracks in some ranges of this zone adds a large part of velocity dispersion and a dimmer f c at about 9.5 kHz. Immediate underneath the gas hydrate zone, abundant free water in weakly laminated sediments causes quite strong velocity dispersion and an f c at about 6.5 kHz. Velocity dispersion is mild and without an obvious f c in sediments above the gas hydrate zone. Article in Journal/Newspaper Mackenzie Delta Northwest Territories Wiley Online Library Canada Mackenzie Delta ENVELOPE(-136.672,-136.672,68.833,68.833) Northwest Territories Geophysical Prospecting 64 4 1016 1029
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description ABSTRACT Seismic attenuation and velocity dispersion are potentially able to reveal the rock physical properties of the subsurface. Conventionally, a frequency‐independent quality factor ( Q ) is measured. This Q is equivalent to the total velocity dispersion in a seismic record and is inadequate for analysing the attenuation mechanism or rock physical properties. Here a new method is proposed to extract the velocity dispersion curves so that more attributes can be obtained from full‐waveform multichannel sonic logging data, especially the critical frequency ( f c ) if it is within the bandwidth of the data. This method first decomposes the seismic data into a series of frequency components, computes the semblance of each frequency component for different velocity values, cross‐correlates the semblance matrices of adjacent frequency components to get the velocity gradients, and finally integrates to obtain a velocity dispersion curve. Results of this method are of satisfactory accuracy and robustness. This method is applied to the data acquired in Mallik 5L‐38 gas hydrate research well in Mackenzie Delta, Northwest Territories, Canada. The observed P‐wave velocity dispersion compares well with the geological setting. In the gas hydrate zone (about 900 m–1100 m), high concentration of gas hydrate causes very strong velocity dispersion and a distinct f c at about 15 kHz, likely due to strong scattering of centimetre‐scale inclusions of gas hydrate; concurrently, water flow in connected cracks in some ranges of this zone adds a large part of velocity dispersion and a dimmer f c at about 9.5 kHz. Immediate underneath the gas hydrate zone, abundant free water in weakly laminated sediments causes quite strong velocity dispersion and an f c at about 6.5 kHz. Velocity dispersion is mild and without an obvious f c in sediments above the gas hydrate zone.
author2 National Natural Science Foundation of China
format Article in Journal/Newspaper
author Sun, Langqiu F.
Milkereit, Bernd
Tisato, Nicola
spellingShingle Sun, Langqiu F.
Milkereit, Bernd
Tisato, Nicola
Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study
author_facet Sun, Langqiu F.
Milkereit, Bernd
Tisato, Nicola
author_sort Sun, Langqiu F.
title Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study
title_short Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study
title_full Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study
title_fullStr Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study
title_full_unstemmed Analysis of velocity dispersion using full‐waveform multichannel sonic logging data: A case study
title_sort analysis of velocity dispersion using full‐waveform multichannel sonic logging data: a case study
publisher Wiley
publishDate 2016
url http://dx.doi.org/10.1111/1365-2478.12410
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2F1365-2478.12410
https://onlinelibrary.wiley.com/doi/pdf/10.1111/1365-2478.12410
long_lat ENVELOPE(-136.672,-136.672,68.833,68.833)
geographic Canada
Mackenzie Delta
Northwest Territories
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Mackenzie Delta
Northwest Territories
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Northwest Territories
genre_facet Mackenzie Delta
Northwest Territories
op_source Geophysical Prospecting
volume 64, issue 4, page 1016-1029
ISSN 0016-8025 1365-2478
op_rights http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1111/1365-2478.12410
container_title Geophysical Prospecting
container_volume 64
container_issue 4
container_start_page 1016
op_container_end_page 1029
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