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基于深度学习的天然气脱硫过程多目标预测建模研究

王诗慧蒋巍黄坤高晓根张春阳曹杰罗永辉

石油与天然气化工2025，Vol.54Issue(4)：1-11,11.

石油与天然气化工2025，Vol.54Issue(4)：1-11,11.DOI:10.3969/j.issn.1007-3426.2025.04.001

基于深度学习的天然气脱硫过程多目标预测建模研究

Multi-objective predictive modeling of natural gas desulfurization process based on deep learning

王诗慧 ¹蒋巍 ¹黄坤 ²高晓根 ¹张春阳 ¹曹杰 ²罗永辉³

作者信息

1. 中国石油西南油气田公司天然气研究院||国家能源高含硫气藏开采研发中心||国家市场监督管理总局重点实验室(天然气质量控制和能量计量)
2. 中国石油西南油气田公司天然气净化总厂
3. 西南油气田川东北作业分公司
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摘要

Abstract

Objective Accurate modeling of the natural gas desulfurization process is helpful for natural gas enterprises to achieve efficient and stable production,improve product gas quality,increase economic benefits,and ensure that exhaust emissions meet standards.Although the existing modeling methods based on artificial intelligence(AI)have achieved notable advancements,they typically focus on the prediction of a single production objective and cannot cope with the diverse application requirements,which limit their application in industrial devices.Method Using multi-task learning(MTL)technology,the intrinsic correlations among production variables in the production data of natural gas desulfurization processes were fully explored.By incorporating Savitzky-Golay filtering for noise reduction,and feature dimensionality reduction through Pearson correlation analysis and Random Forest algorithm,key production features of the desulfurization process were accurately identified.Based on this,using the MTL method,the multi-objective prediction tasks of total sulfur content and hydrogen sulfide content in the product gas were accomplished simultaneously.Result Compared to traditional machine learning methods,the MTL model demonstrated significant advantages in prediction accuracy and prediction stability.The determination coefficient mean value((-R2))of total sulfur mass concentration and hydrogen sulfide mass concentration in product gas were 0.980 and 0.972,respectively.The mean squared error mean value((-SME))were 0.127(mg/m3)2 and 0.008(mg/m3)2,respectively,and the prediction error was reduced by more than 50%.The assessment of input variable importance using Shapley additive explanations(SHAP)method revealed that the MTL model could accurately identify key operational variables.Additionally,the importance ranking of key variables and their impact patterns on prediction objects were consistent in the two prediction tasks,indicating that the model has advantages in accurately capturing the synergistic effects among multiple tasks.Conclusion The proposed modeling method not only enables accurate prediction of multiple production objectives,enhances the model's robustness and interpretability,but also reduces modeling computational costs,thereby increasing its practicality and adaptability in industrial applications,which can provide a reference for the development of modeling methods suitable for the natural gas desulfurization process.

关键词

天然气/脱硫/人工智能/Savitzky-Golay滤波/特征工程/深度学习/多任务学习

Key words

natural gas/desulfurization/artificial intelligence(AI)/Savitzky-Golay filtering/feature engineering/deep learning/multi-task learning

引用本文复制引用

王诗慧,蒋巍,黄坤,高晓根,张春阳,曹杰,罗永辉..基于深度学习的天然气脱硫过程多目标预测建模研究[J].石油与天然气化工,2025,54(4):1-11,11.

基金项目

中国石油西南油气田公司科研项目"基于机器学习的天然气深度脱硫工艺建模研究"(2024D106-02-04) （2024D106-02-04）

石油与天然气化工

OA北大核心

ISSN：1007-3426

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