基于BP神经网络的湿陷黄土隧道围岩润湿及湿陷过程三维有效应力分析

Q3 Engineering
Wen Wang
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 OBJECTIVES: From China's practical point of view, the humidification and wetting process of wetted loess tunnel peripheral rock is deeply discussed and analyzed, and the water content distribution characteristics of wetted loess tunnel peripheral rock are sought.
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引用次数: 0

摘要

中国的黄土广袤无垠。黄土具有明显的高强度和抗变形能力,一旦遇到水浸没和加湿,易熔盐沉淀在土壤颗粒表面,土壤的携带碱化强度相对降低,同时土壤中垂直管状孔隙加速水分的入渗,土体在自重或上覆荷载的附加作用下会产生明显的沉降变形。导致上部建筑的结构破坏,即沉降润湿的损失。 目的:从中国实际出发,深入探讨和分析湿化黄土隧道围岩的湿化润湿过程,寻求湿化黄土隧道围岩的含水率分布特征。 方法:利用粒子群算法,模拟并建立径向基神经网络(RBFNN)、广义回归神经网络(GRNN)、小波神经网络(WNN)和模糊神经网络(FNN) 4种神经优化网络模型,分析西北某城市和中部某城市黄土隧道围岩湿沉降过程中的三维有效应力。结果:通过分析这四种模型在两组实验数据的测试数据上的预测值与实际值的对比图、期望差值与真实值的比例分布以及三个误差指标的计算结果,可以发现,在使用RBFNN、GRNN、WNN和FNN这四种神经网络时,对于湿土黄土中隧道围岩增湿和润湿过程中的三维有效应力分析,小波神经网络的预测性能最好。 结论:不同含水率和加湿次数对土体非饱和沉降特性的影响不同。周期越短,土壤柱含水量差异越大。随着土层含水率变化的不断增大,黄土土柱含水率变化的分布趋于相对均匀,上下土层的损伤率差异趋于缩小——加湿量、加湿时间和加湿压力控制湿沉降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D-dimensional Effective Stress Analysis of Wetting and Wetting Trapping Process in Wet-submerged Loess Tunnel Surrounding Rock Based on BP Neural Network
INTRODUCTION: China's loess is vast. Loess has apparent high strength and resistance to deformation once encountered with water immersion and humidification, fusible salts precipitated on the surface of soil particles, the soil's carry alkalization strength is relatively reduced, while the vertical tubular pores in the soil accelerate the infiltration of water, the earth will be in the self-weight or the overlying loads of the additional action of the soil body will produce a significant settlement deformation, which results in the structural damage of the upper building, which is the loss of the wetting of subsidence. OBJECTIVES: From China's practical point of view, the humidification and wetting process of wetted loess tunnel peripheral rock is deeply discussed and analyzed, and the water content distribution characteristics of wetted loess tunnel peripheral rock are sought. METHODS: Using the particle swarm algorithm, four neural optimization network models, namely, radial basis neural network (RBFNN), generalized regression neural network (GRNN), wavelet neural network (WNN), and fuzzy neural network (FNN), are simulated and created for the analysis of three-dimensional effective stresses in the process of humidity and wetness subsidence in the surrounding rock of loess tunnels of a northwestern city in China and a central city in China. RESULTS: By analyzing the comparison graphs between the predicted and actual values of these four models on the test data of two sets of experimental data, the distribution of the proportion of the expected difference to the true value, and the results of the calculation of the three error indexes, it can be found that when using the four neural networks, namely, RBFNN, GRNN, WNN, and FNN, for the analysis of the three-dimensional effective stresses during the process of increasing wetting and wetting of the surrounding rock of the tunnel in the soil-wetted loess, the prediction performance of the WNN is the best. CONCLUSION: The soil's unsaturated settlement characteristics differ for different water contents and humidification times. The shorter the period, the more the soil column water content difference. With the continuous increase of water content change in the soil layer, the distribution of water content change in the loess soil column tends to be relatively uniform, and the difference in damage rate between the upper and lower layers tends to be reduced—the amount, time, and pressure of humidification controls wet subsidence.
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来源期刊
EAI Endorsed Transactions on Energy Web
EAI Endorsed Transactions on Energy Web Energy-Energy Engineering and Power Technology
CiteScore
2.60
自引率
0.00%
发文量
14
审稿时长
10 weeks
期刊介绍: With ICT pervading everyday objects and infrastructures, the ‘Future Internet’ is envisioned to undergo a radical transformation from how we know it today (a mere communication highway) into a vast hybrid network seamlessly integrating knowledge, people and machines into techno-social ecosystems whose behaviour transcends the boundaries of today’s engineering science. As the internet of things continues to grow, billions and trillions of data bytes need to be moved, stored and shared. The energy thus consumed and the climate impact of data centers are increasing dramatically, thereby becoming significant contributors to global warming and climate change. As reported recently, the combined electricity consumption of the world’s data centers has already exceeded that of some of the world''s top ten economies. In the ensuing process of integrating traditional and renewable energy, monitoring and managing various energy sources, and processing and transferring technological information through various channels, IT will undoubtedly play an ever-increasing and central role. Several technologies are currently racing to production to meet this challenge, from ‘smart dust’ to hybrid networks capable of controlling the emergence of dependable and reliable green and energy-efficient ecosystems – which we generically term the ‘energy web’ – calling for major paradigm shifts highly disruptive of the ways the energy sector functions today. The EAI Transactions on Energy Web are positioned at the forefront of these efforts and provide a forum for the most forward-looking, state-of-the-art research bringing together the cross section of IT and Energy communities. The journal will publish original works reporting on prominent advances that challenge traditional thinking.
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