Long-Term Forecasting and Optimization of Non-Stationary Well Operation Modes Through Neural Networks Simulation

Roman Yurievich Ponomarev, Vladimir Evgenievich Vershinin
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引用次数: 1

Abstract

The article discusses the results of long-term forecasting of non-stationary technological modes of production wells using neural network modeling methods. The main difficulty in predicting unsteady modes is to reproduce the response of producing wells to a sharp change in the mode of one of the wells. Such jumps, as a rule, lead to a rapid increase in the forecast error. Training and forecasting of modes was carried out on the data of numerical hydrodynamic modeling. Two fields with significantly different properties, the number of wells and their modes of operation were selected as objects of modeling. Non-stationarity was set by changing the regime on one or several production wells at different points in time. The LSTM recurrent neural network carried out forecasting of production technological parameters. This made it possible to take into account the time-lagging influence of the wells on each other. It is shown that the LSTM neural network allows predicting unsteady technological modes of well operation with an accuracy of up to 5% for a period of 10 years. The solution of the problem of optimization of oil production is considered on the example of one of the models. It is shown that the optimal solution found by the neural network differs from the solution found by hydrodynamic modeling by 5%. At the same time, a significant gain in calculation time was achieved.
基于神经网络模拟的非平稳井作业模式长期预测与优化
本文讨论了利用神经网络建模方法对生产井非平稳工艺模式进行长期预测的结果。预测非定常模态的主要困难是再现生产井对其中一口井模态急剧变化的响应。通常,这种跳跃会导致预测误差迅速增加。利用数值水动力模拟数据对模型进行训练和预测。选取两个性质、井数和作业方式差异显著的油田作为建模对象。非平稳性是通过在不同的时间点改变一口或几口生产井的状态来设定的。利用LSTM递归神经网络对生产工艺参数进行预测。这使得考虑井对彼此的时间滞后影响成为可能。研究表明,LSTM神经网络可以在10年内预测井的非稳态工艺模式,准确率高达5%。以其中一个模型为例,考虑了采油优化问题的求解。结果表明,神经网络得到的最优解与水动力建模得到的最优解相差5%。同时,计算时间也有了明显的提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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