Bowland Shale well placement strategy – part 1 : determining landing intervals using geomechanical properties
de Jonge-Anderson, Iain and Ma, Jingsheng and Wu, Xiaoyang and Stow, Dorrik and Griffiths, David (2021) Bowland Shale well placement strategy – part 1 : determining landing intervals using geomechanical properties. Marine and Petroleum Geology, 133. 105277. ISSN 0264-8172 (https://doi.org/10.1016/j.marpetgeo.2021.105277)
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Abstract
The production performance of a shale reservoir is directly affected by the geomechanical characteristics of the formation. A target shale interval will ideally develop hydraulic fractures upon stimulation that stay open with the aid of injected proppant. However, shales are geomechanically complex due to heterogeneities in their rock properties such as mineralogy and porosity and the extent to which they may be naturally fractured. These characteristics can complicate the task of identifying the ideal target interval for placing horizontal wells. Whilst the Bowland Shale is the UK's most prospective shale gas target, long horizontal wells are generally not feasible or practical in the Craven Basin, due to the existence of many, large-offset reverse faults and high bedding dips. An alternative to this approach could include drilling shorter, stacked horizontal wells targeting different stratigraphic intervals. However, it is unclear if there are enough intervals within the stratigraphic section with the desired geomechanical properties to target with stacked horizontal wells, nor if there are adequate intervals that can limit vertical hydraulic fracture growth between those wells. The absence of the latter may ultimately lead to well interference and reduced production. These issues were addressed by the creation of a series of wireline log-based geomechanical logs at well Preese Hall-1, calibrated to pressure test data. Aided by the results of a cluster analysis model, the upper section of the Bowland Shale was classified into geomechanical zones to identify the optimal intervals for hydraulic fracturing and barriers to vertical hydraulic fracture growth. Three intervals are highlighted with low effective stress, low fracture toughness and high brittleness which may form excellent landing zones. Importantly, these landing zones are also separated by intervals of high effective stress that may limit vertical hydraulic fracture growth and mitigate the risk of well interference.
ORCID iDs
de Jonge-Anderson, Iain ORCID: https://orcid.org/0000-0002-9438-8194, Ma, Jingsheng, Wu, Xiaoyang, Stow, Dorrik and Griffiths, David;-
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Item type: Article ID code: 90908 Dates: DateEvent30 November 2021Published20 August 2021Published Online6 August 2021AcceptedSubjects: Science > Geology Department: Faculty of Engineering > Civil and Environmental Engineering Depositing user: Pure Administrator Date deposited: 21 Oct 2024 12:07 Last modified: 11 Nov 2024 14:29 URI: https://strathprints.strath.ac.uk/id/eprint/90908