A deep encoder-decoder neural network model for total organic carbon content prediction from well logs

•This work proposed a deep encoder-decoder neural network (DEDNN) for predicting TOC contents.•The DEDNN model shows more accurate and sensitive than ΔLogR method and CNN method.•The DEDNN model can highlight the contribution of individual logging curve to the TOC prediction. Total organic carbon (T...

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Bibliographic Details
Published in:Journal of Asian earth sciences Vol. 240; p. 105437
Main Authors: Zhang, Wang, Shan, Xiaocai, Fu, Boye, Zou, Xinyu, Fu, Li-Yun
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.12.2022
Subjects:
Deep Encoder-decoder Neural Network
Multi-scale feature fusion
Saliency
Total organic carbon (TOC)
Well logs
Total organic carbon (TOC)
Saliency
Well logs
Deep Encoder-decoder Neural Network
Multi-scale feature fusion
ISSN:1367-9120, 1878-5786
Online Access:Get full text
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Summary:•This work proposed a deep encoder-decoder neural network (DEDNN) for predicting TOC contents.•The DEDNN model shows more accurate and sensitive than ΔLogR method and CNN method.•The DEDNN model can highlight the contribution of individual logging curve to the TOC prediction. Total organic carbon (TOC) content is an important geochemical parameter for evaluating the hydrocarbon generation potential of unconventional oil and gas resources. The TOC content of source rocks significantly affects the responses of well logs so, in principle, well logs can be used for source rock appraisal. However, the complex relationships between TOC content and well logs involve nonlinear mapping with many parameters. It is sometimes difficult to obtain continuous and accurate TOC content values using conventional methods such as the ΔLogR method. In this study, we propose a TOC prediction model using a deep encoder-decoder neural network (DEDNN) based on mining and mapping of multiscale features of logging curves. The prediction performance of the model is validated by a series of tests using data from four exploration wells in the Longmaxi black shale in the Dingshan area of the Sichuan Basin. The TOC content prediction results confirm that the proposed DEDNN is more accurate than either the ΔLogR method or CNN, which is a state-of-the-art convolutional neural network. Furthermore, a saliency map derived from the DEDNN results shows the relative importance of different well logs to TOC contents.
ISSN:1367-9120
1878-5786
DOI:10.1016/j.jseaes.2022.105437