Petroleum Science >2024, Issue2: - DOI: https://doi.org/10.1016/j.petsci.2023.10.024
Machine learning for carbonate formation drilling: Mud loss prediction using seismic attributes and mud loss records Open Access
文章信息
作者:Hui-Wen Pang, Han-Qing Wang, Yi-Tian Xiao, Yan Jin, Yun-Hu Lu, Yong-Dong Fan, Zhen Nie
作者单位:
投稿时间:
引用方式:Hui-Wen Pang, Han-Qing Wang, Yi-Tian Xiao, Yan Jin, Yun-Hu Lu, Yong-Dong Fan, Zhen Nie, Machine learning for carbonate formation drilling: Mud loss prediction using seismic attributes and mud loss records, Petroleum Science, Volume 21, Issue 2, 2024, Pages 1241-1256, https://doi.org/10.1016/j.petsci.2023.10.024.
文章摘要
Abstract: Due to the complexity and variability of carbonate formation leakage zones, lost circulation prediction and control is one of the major challenges of carbonate drilling. It raises well-control risks and production expenses. This research utilizes the H oilfield as an example, employs seismic features to analyze mud loss prediction, and produces a complete set of pre-drilling mud loss prediction solutions. Firstly, 16 seismic attributes are calculated based on the post-stack seismic data, and the mud loss rate per unit footage is specified. The sample set is constructed by extracting each attribute from the seismic trace surrounding 15 typical wells, with a ratio of 8:2 between the training set and the test set. With the calibration results for mud loss rate per unit footage, the nonlinear mapping relationship between seismic attributes and mud loss rate per unit size is established using the mixed density network model. Then, the influence of the number of sub-Gausses and the uncertainty coefficient on the model's prediction is evaluated. Finally, the model is used in conjunction with downhole drilling conditions to assess the risk of mud loss in various layers and along the wellbore trajectory. The study demonstrates that the mean relative errors of the model for training data and test data are 6.9% and 7.5%, respectively, and that R2 is 90% and 88%, respectively, for training data and test data. The accuracy and efficacy of mud loss prediction may be greatly enhanced by combining 16 seismic attributes with the mud loss rate per unit footage and applying machine learning methods. The mud loss prediction model based on the MDN model can not only predict the mud loss rate but also objectively evaluate the prediction based on the quality of the data and the model.
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Keywords: Lost circulation; Risk prediction; Machine learning; Seismic attributes; Mud loss records