一种新的页岩油多相预测模型

IF 7.5 1区工程技术 Q2 ENERGY & FUELS

Fuel Pub Date : 2025-10-10 DOI:10.1016/j.fuel.2025.137048

Nijun Qi , Zhengdong Lei , Xizhe Li , Zhewei Chen , Xiaomei Zhou , Lijuan Wang , Mengfei Zhou , Xiangyang Pei , Longyi Wang , Sijie He

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引用次数: 0

摘要

针对动态页岩油产量预测中的复杂挑战，本研究提出了一种新的模型，称为带门控机制的多分辨率融合信息器（MRFI-Gate），用于高精度预测每日油、气、水产量。该模型创新性地结合了三个关键机制：通过多分辨率卷积神经网络（MultiResCNN）和Informer的协调架构进行多尺度特征提取，以捕获局部细节和全局趋势；通过静态特征进行物理信息约束，以增强可解释性和通用性；通过关闭和恢复门控模块（SIR-Gating Module）实现动态事件响应，自动识别关闭事件并调整预测策略。现场数据验证表明，MRFI-Gate在MAE、RMSE和R2等关键指标上明显优于GRU、LSTM和ANN模型。在测试集上，MRFI-Gate的MAE为0.1029，RMSE为0.2013，R2为0.9006，显著优于其他模型。mri - gate的MAE比GRU低31.7%，比LSTM低39.5%，比ANN低47.2%；RMSE比GRU低32.8%，比LSTM低33.3%，比ANN低49.3%；R2比GRU高23.0%，比LSTM高24.2%，比ANN高37.4%。该研究为页岩油生产多相预测提供了一种新的混合建模范式。

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A novel multiphase prediction model for shale oil production

Addressing the complex challenges in dynamic shale oil production forecasting, this study proposes a new model named Multi-Resolution Fusion Informer with Gating Mechanism (MRFI-Gate) for high-precision prediction of daily oil, gas, and water production. The model innovatively combines three key mechanisms: multi-scale feature extraction through a coordinated architecture of multi-resolution convolutional neural network (MultiResCNN) and Informer to capture both local details and global trends, physics-informed constraints via static features to enhance interpretability and generalizability, and dynamic event response enabled by the Shut-in and Resumption Gating Module (SIR-Gating Module) that automatically identifies shut-in events and adjusts prediction strategies. Validation using field data demonstrates that MRFI-Gate significantly outperforms GRU, LSTM, and ANN models across key metrics including MAE, RMSE, and R². On the test set, MRFI-Gate achieved a MAE of 0.1029, RMSE of 0.2013, and R² of 0.9006, significantly outperforming other models. MRFI-Gate’s MAE is 31.7% lower than GRU, 39.5% lower than LSTM, and 47.2% lower than ANN; RMSE is 32.8% lower than GRU, 33.3% lower than LSTM, and 49.3% lower than ANN; R² is 23.0% higher than GRU, 24.2% higher than LSTM, and 37.4% higher than ANN. This study provides a new hybrid modeling paradigm for multiphase prediction in shale oil production.

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来源期刊

Fuel 工程技术-工程：化工

CiteScore

12.80

自引率

20.30%

发文量

3506

审稿时长

64 days

期刊介绍： The exploration of energy sources remains a critical matter of study. For the past nine decades, fuel has consistently held the forefront in primary research efforts within the field of energy science. This area of investigation encompasses a wide range of subjects, with a particular emphasis on emerging concerns like environmental factors and pollution.