One
of the most common subsurface data sets that is easily accessible and often
underutilized is the acquired measuring while drilling (MWD) gamma ray
(GR-GAPI) log. Data is acquired from a given gamma ray tool positioned within
the drill string and pulsed up to the surface through the mud column in the
wellbore. Typical use of the data is for subsurface geologists, drillers and
others to correlate the data to known stratigraphic signatures and steer wells
through horizontal target zones. Through that correlation, an association to
the geologic stratigraphic column can be made and the team of subsurface
scientists adjusts where, how fast, and why they choose to continue drilling.
The technique of correlation applies to both the conventional and unconventional
application. In the unconventional application,
the data is also typically acquired along the length of the horizontal
wellbore. From a petrophysical standpoint, just acquiring a gamma ray
can limit the amount of information and
ability to fully evaluate the properties along the length of the well. In this
study, we share and demonstrate how to utilize the MWD GR for
petrophysical evaluation beyond just a volume of shale or volume of clay
interpretation. The workflow will allow full integration of a comprehensive
petrophysical evaluation that can then be utilized to support all subsurface
understandings and modelling efforts.
References
[1]
Heger, A. (2016) Stratigraphy and Reservoir Characterization of the Turner Sandstone, Southern Powder River Basin, Wyoming. Colorado School of Mines MS Submission and Archive, Golden, CO.
[2]
Silver, B.A. and Todd, R.G. (1969) Permian Cyclic Strata, Northern Midland and Delaware Basins, West Texas and Southeastern New Mexico. American Association of Petroleum Geologists Bulletin, 53, 2223-2251. https://doi.org/10.1306/5D25C94D-16C1-11D7-8645000102C1865D
[3]
Jarvie, D.M. (2017) Perspectives on Shale Resource Plays. In: Suarez-Ruiz, I. and Filho, J.G.M., Eds., The Role of Organic Petrology in the Exploration of Conventional and Unconventional Hydrocarbon Systems (Geology: Current and Future Developments), Bentham Science Publishers, Sharjah, 316-343. https://doi.org/10.2174/9781681084633117010013
[4]
Meissner, F.G. (1972) Cyclic Sedimentation in Middle Permian Strata of the Permian Basin. In: Elam, J.G. and Chuber, S., Eds., Cyclic Sedimentation in the Permian Basin, West Texas Geological Society, Midland, 203-232.
[5]
Cook, Y.O. (1966) Regional Geology of the Delaware Basin, Paper SPE-1394. Journal of Petroleum Technology, 18, 1260-1266. https://doi.org/10.2118/1394-PA
[6]
Malik, M., Schmidt, C., Stockhausen, E., Vrubel, N.K. and Schwartz, K. (2013) Integrated Petrophysical Evaluation of Unconventional Reservoirs in the Delaware Basin, Paper SPE-166264. The SPE Annual Technical Conference and Exhibition, New Orleans, 30 September-2 October 2013, 20 p. https://doi.org/10.2118/166264-MS
[7]
Kvale, E.P. and Rahman, M. (2016) Depositional Facies and Organic Content of Upper Wolfcamp Formation (Permian) Delaware Basin and Implications for Sequence Stratigraphy and Hydrocarbon Source, Paper URTEC-2457495. The Unconventional Resources Technology Conference, San Antonio, 1-3 August 2016, 11 p.
[8]
United States Department of Energy (2020) Permian Basin Part 1; Wolfcamp, Bone Spring, Delaware Shale Plays of the Delaware Basin-Geologic Review. EIA-U.S. Energy Information Administration, Independent Statistics and Analysis, Washington DC, 38.
[9]
Sonnenberg, S., Heger, A. and Bone, C. (2019) Geology of the Turner Sandstone, Finn-Shurley Field, Powder River Basin Wyoming. AAPG Search and Discovery Article #20462, AAPG Annual Convention Meeting, San Antonio, 29 July 2019. https://doi.org/10.15530/urtec-2019-50
[10]
Sonnenberg, S.A. (2020) Carrier Bed (Halo) Play in the Cretaceous Turonian Turner Sandstone Crossbow Field Area, Powder River Basin. Unconventional Resources Technology Conference (URTEC) Annual Meeting, Austin, 22 July 2020, 15 p. https://doi.org/10.15530/urtec-2020-2161
[11]
LeMaster, J. and Bingle-Davis, M. (2015) The Upper Cretaceous Turner Sandstone as an Emerging Oil and Gas Play, Eastern Powder River Basin, Wyoming. Geological Society of America 125th Anniversary Annual Meeting and Expo, Denver, s. 35.
[12]
Lloyd’s Register Digital Products Limited. Interactive Petrophysics Software 2019, Version 4.6.2021.4208.
[13]
Archie, G.E. (1942) The Electrical Resistivity Log as an Aid in Determining Some Reservoir Characteristics. Transactions of the AIME, 146, 54-67. https://doi.org/10.2118/942054-G
[14]
Carrasquilla, A. and Leite, M. (2014) Fuzzy Logic in the Simulation of Sonic Log Using an Input Combinations of Gamma Ray, Resistivity, Porosity, and Density Well Logs from Namorado Oilfield. 11th International Congress of the Brazilian Geophysical Society & EXPOGEF 2009, Salvador, 24-28 August 2009, 200-203. https://doi.org/10.1190/sbgf2009-049
[15]
Kim, J. (2021) New Geomechanical Application Utilizing MWD Gamma Raw Logs: An Eagle Ford Case Study. Journal of Petroleum Science and Engineering, 196, 14 p. https://doi.org/10.1016/j.petrol.2020.108043
