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Journal of Australian Energy Producers
 

Geoscience Visual Presentation G13: Real-time chemostratigraphy at wellsite; removing drilling uncertainties

David Riley A *
+ Author Affiliations
- Author Affiliations

A Chemostrat Ltd, Welshpool, Powys, UK.




David Riley completed a MGeol and PhD from the University of Leicester, UK, and joined Chemostrat Ltd as a Chemostratigrapher in October 2012. Since joining Chemostrat Ltd, Dr Riley has worked on projects from eastern Canada, UK North Sea, Middle East, Southeast Asia, and Australia. In 2022, he became Chemostrat Ltd Stratigraphy Manager, providing technical oversight on all chemostratigraphic studies. He is a Fellow of the Geological Society of London.

* Correspondence to: davidriley@chemostrat.com

Australian Energy Producers Journal 64 https://doi.org/10.1071/EP23429
Published: 7 June 2024

© 2024 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of Australian Energy Producers.

Abstract

Geoscience Visual Presentation G13

Real-time chemostratigraphy is a workflow deployed at wellsites to remove stratigraphic uncertainty and support drilling operations. This study presents the chemostratigraphic wellsite workflow which, during drilling operations, support either the placement of casing points (using predefined geochemical markers to target a depth above a specific stratigraphic feature) or aid geosteering. Geosteering is typically employed during the drilling of a horizontal well and is done to keep the drill within a certain zone or horizon to maximise production. Wellsite chemostratigraphy has been effectively deployed to wellsites within multiple basins around the globe and has recently been utilised in the Perth Basin. The wellsite workflow starts before the deployment, with offset wells analysed by inductively coupled plasma (ICP) spectroscopy within a laboratory-based setting. This builds the correlative element-based framework and identifies the trends required to assist with either core placement, casing point, or geosteering. Samples are analysed by energy dispersive x-ray fluorescence units (these data are then used to confirm the zone previously defined) and can be identified at wellsite using the onsite tool, the selected elements of which are those less likely to be affected by drilling mud contamination and loss of circulation material (LCM). However, during drilling operation, there may be instances where LCM must be added to the drilling muds, which may have an effect on the data quality for certain elements. With a dedicated ICP spectrometry elemental database behind the wellsite operation, machine learning tools may be employed to ‘repair’ correlation critical elements.

To access the Visual Presentation click the link on the right. To read the full paper click here

Keywords: casing point, chemostratigraphy, drilling, geosteering, lateral well, real-time, stratigraphy, wellsite.

Biographies

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David Riley completed a MGeol and PhD from the University of Leicester, UK, and joined Chemostrat Ltd as a Chemostratigrapher in October 2012. Since joining Chemostrat Ltd, Dr Riley has worked on projects from eastern Canada, UK North Sea, Middle East, Southeast Asia, and Australia. In 2022, he became Chemostrat Ltd Stratigraphy Manager, providing technical oversight on all chemostratigraphic studies. He is a Fellow of the Geological Society of London.