基于改进的 GAN 方法和组合 ANN 模型的岩心热工水力参数预测研究

IF 1.9 3区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY

Annals of Nuclear Energy Pub Date : 2024-09-14 DOI:10.1016/j.anucene.2024.110913

Zhu Yuhan , Chu Jiru , Wang Bo , Hu Shaochun , Wang Weibing , Zhang Jiayi

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引用次数: 0

摘要

这项研究提出了先进的数据处理方法，作为适用于核工程的工具。测试中考虑了三种方法--自动编码器、随机森林和多层感知器。多层感知器（MLP）方法最好地保留了数据的结构。在生成数据时，采用了一种基于 Wasserstein 距离的更好的生成式对抗网络（GAN），它克服了普通 GAN 中普遍存在的梯度消失和模式崩溃问题。在检查生成的数据时，应用了先进的统计和机器学习技术，对生成的数据和原始数据进行了细致的比较。数据预测应用了 MLP、卷积神经网络（CNN）和递归神经网络（RNN）的组合模型。通过将有限记忆布洛伊登-弗莱彻-金法布-山诺（LBFGS）优化算法与贝叶斯优化相结合，岩芯热工水力参数的预测得到了显著改善。同时，这项研究为应对核工程数据挑战提供了重要技术，进一步影响了核工程领域。

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Research on core thermal hydraulic parameters prediction based on the improved GAN method and combined ANN model

This research presents advanced methods of data processing as tools applicable in nuclear engineering. Three methods-autoencoder, random forest and multilayer perceptron were considered for the testing. The multi-layer perceptron (MLP) method preserved best the structure of the data. A better generative adversarial network (GAN) based on the Wasserstein distance was implemented for data generation, which overcomes the issues of gradient vanishing and mode collapse prevailing in common GANs. While examining the generated data, advanced statistical and machine learning techniques were applied to minutely compare the generated and original data. Data forecasting applied a combined model of MLP, convolutional neural network (CNN), and recurrent neural networks (RNN). With limited-memory broyden-fletcher-goldfarb-shanno (LBFGS) optimization algorithm being combined with bayesian optimization, there was significant improved prediction of core thermal hydraulic parameters. Meanwhile, this research provides important techniques to deal with challenges of nuclear engineering data which further impacts the field of nuclear engineering.

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来源期刊

Annals of Nuclear Energy 工程技术-核科学技术

CiteScore

4.30

自引率

21.10%

发文量

632

审稿时长

7.3 months

期刊介绍： Annals of Nuclear Energy provides an international medium for the communication of original research, ideas and developments in all areas of the field of nuclear energy science and technology. Its scope embraces nuclear fuel reserves, fuel cycles and cost, materials, processing, system and component technology (fission only), design and optimization, direct conversion of nuclear energy sources, environmental control, reactor physics, heat transfer and fluid dynamics, structural analysis, fuel management, future developments, nuclear fuel and safety, nuclear aerosol, neutron physics, computer technology (both software and hardware), risk assessment, radioactive waste disposal and reactor thermal hydraulics. Papers submitted to Annals need to demonstrate a clear link to nuclear power generation/nuclear engineering. Papers which deal with pure nuclear physics, pure health physics, imaging, or attenuation and shielding properties of concretes and various geological materials are not within the scope of the journal. Also, papers that deal with policy or economics are not within the scope of the journal.