Field
Value
Language
dc.contributor.author
Eaton, David
datacite.creator.affiliationIdentifier
https://ror.org/03yjb2x39
en_US
datacite.creator.affiliation
University of Calgary
en_US
datacite.creator.nameIdentifier
https://orcid.org/0000-0001-6495-6093
en_US
dc.coverage.temporal
2021-01-13/2021-01-19
dc.date.accessioned
2024-11-25T15:34:35Z
dc.date.available
2024-11-25T15:34:35Z
dc.date.issued
2024-11-25
dc.identifier.uri
https://doi.org/10.20383/103.01135
dc.identifier.uri
https://www.frdr-dfdr.ca/repo/dataset/7f1d5e74-ca66-4265-b3c9-7fe09d6a1252
dc.description
The objective of the CanDiD-1 project was to acquire distributed acoustic sensing (DAS) data in a deviated wellbore during hydraulic fracturing operations in nearby horizontal wells, and thereby to characterize the subsurface strain and microseismicity that accompanied the growth of tensile fractures during well stimulation. The experiment took place in the Dawson Creek region of northeastern BC, Canada. As one of the first times that a temporary optical fibre was used for this purpose in Canada, a secondary technical aim of CanDiD-1 was to evaluate the effectiveness of a temporarily deployed fibre. The data were acquired using a DAS gauge length of 7.1 m and a spatial sampling interval of 1m, with a temporal sample rate of 1 kHZ. A fibre optic cable was deployed from the wireline truck and tractor to a measured depth of 4300m into a deviated well. The raw strain observations were acquired in a proprietary data format and have been converted to .hdf5 data format, which can be read using the open source package h5py (https://www.h5py.org).
en_US
dc.publisher
Federated Research Data Repository / dépôt fédéré de données de recherche
dc.rights
Creative Commons Attribution-NonCommercial 4.0 (CC BY-NC 4.0)
en_US
dc.rights.uri
https://creativecommons.org/licenses/by-nc/4.0/
en_US
dc.subject
Fiber optic
en_US
dc.subject
Distributed Acoustic Sensing
en_US
dc.subject
DAS
en_US
dc.subject
microseismic monitoring
en_US
dc.subject
subsurface strain
en_US
dc.subject
temporary wireline optical fibre
en_US
dc.subject
Dawson Creek, BC
en_US
dc.title
Canadian Dip-In DAS (CanDiD) Project 1
en_US
globus.shared_endpoint.name
f163c1b3-9c88-42f6-a7bb-5839ed6c4063
globus.shared_endpoint.path
/1/published/publication_1130/
datacite.publicationYear
2024
datacite.contributor.DataManager
David Eaton
datacite.date.Collected
2021-01-13/2021-01-19
datacite.resourceType
Dataset
en_US
datacite.relatedIdentifier.IsPartOf
Eaton, D.W., Ma, Y., Wang, C. and MacDougall, K., 2022, November. Effectiveness of dip-in DAS observations for low-frequency strain and microseismic analysis: The CanDiD experiment. In SEG International Exposition and Annual Meeting (p. D011S031R002). SEG.
datacite.geolocation.geolocationPoint
55.80 -120.67
datacite.geolocation.geolocationBox
55.5 -121.0 56.1 -120.0
datacite.geolocation.geolocationPlace
Dawson Creek;Dawson Creek;British Columbia;Canada
datacite.fundingReference.funderIdentifier
en_US
datacite.fundingReference.funderName
Natural Sciences and Engineering Research Council of Canada (NSERC)
en_US
datacite.fundingReference.awardNumber
SYN/539202-2019
en_US
datacite.fundingReference.awardTitle
NSERC Synergy Award (2 or more companies)
en_US
frdr.crdc.code
RDF1050407
en_US
frdr.crdc.group_en
Earth and related environmental sciences
en_US
frdr.crdc.class_en
Geophysics
en_US
frdr.crdc.field_en
Seismology
en_US
frdr.crdc.group_fr
Sciences de la Terre et sciences de l'environnement connexes
fr_CA
frdr.crdc.class_fr
Géophysique
fr_CA
frdr.crdc.field_fr
Sismologie
fr_CA
