Interval Prediction of the Permeability of Granite Bodies in a High-Level Radioactive Waste Disposal Site Using LSTM-RNNs and Probability Distribution

Pei, Nisong; Yong, Wu; Su, Rui; Li, Xueling; Wu, Zhenghao; Li, Renhai; Yin, Heng

doi:10.3389/feart.2022.835308

Cited by 3 publications

(2 citation statements)

References 39 publications

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“…Pei, N., et, al. [23] have discussed The interval prediction method combines LSTM-RNNs and probability distribution to estimate the permeability of granite bodies in a radioactive waste disposal site. This approach provides a range of possible values, taking into account uncertainties, to improve the accuracy of predictions and inform decision-making in the site's management.…”

Section: Related Wordsmentioning

confidence: 99%

Prediction Analysis of Fault Mode Sets for High Permeability Distributed Energy Distribution Networks Based on Multivariate Data

Jianwei Ma

2024

jes

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This technical abstract describes a prediction analysis methodology for fault mode sets in high-permeability distributed energy distribution networks (DEDNs). DEDNs are complex systems composed of multiple interconnected energy sources, storage units, and loads, which are managed and controlled by intelligent devices. These systems have become increasingly important in modern electricity networks due to their ability to integrate a high share of renewable and distributed energy resources. The proposed prediction analysis aims to identify and classify the various fault modes that can occur in high-permeability DEDNs based on multivariate data. It includes information about the system's operational parameters, such as voltage, current, and frequency, as well as data on weather conditions, load profiles, and the state of the network. The methodology involves collecting and pre-processing the data using suitable techniques, such as data filtering and noise removal.

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Section: Related Wordsmentioning

confidence: 99%

Prediction Analysis of Fault Mode Sets for High Permeability Distributed Energy Distribution Networks Based on Multivariate Data

Jianwei Ma

2024

jes

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“…Piscopo et al [6] analyzed the relationship between discontinuous spacing, depth, and permeability of a rock mass and determined the preliminary characteristics of rock mass in a study area. Pei et al [7] established a predictive model for K at highly radioactive waste disposal sites using rock mechanics parameters. The existing studies focus on inflexible parameter selection and difficulty in obtaining parameters.…”

Section: Introductionmentioning

confidence: 99%

A Novel ISSA–DELM Model for Predicting Rock Mass Permeability

Xing,

Yao,

Wang

2024

CMES

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In pumped storage projects, the permeability of rock masses is a crucial parameter in engineering design and construction. The rock mass permeability coefficient (K) is influenced by various geological parameters, and previous studies aimed to establish an accurate relationship between K and geological parameters. This study uses the improved sparrow search algorithm (ISSA) to optimize the parameter settings of the deep extreme learning machine (DELM), constructing a prediction model with flexible parameter selection and high accuracy. First, the Spearman method is applied to analyze the correlation between geological parameters. A sample database is built by comprehensively selecting four geological indexes: burial depth, rock quality designation (RQD), fracture density characteristic index (FD), and rock mass integrity designation (RID). Hence, the defects of the sparrow search algorithm (SSA) are enhanced using the improved strategy, and the initial input weights of the DELM are optimized. Finally, the proposed ISSA-DELM model is employed to predict the permeability coefficient of rock mass in the entire study area. The results showed that the predictive performance of the model is superior to that of the DELM and SSA-DELM. Therefore, this model successfully provides insights into the distribution characteristics of rock mass permeability at engineering sites.

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The Application and Analysis of Slug Test on Determining the Permeability Parameters of Fractured Rock Mass

et al. 2022

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Based on the proposed calculation method for determining the different dip angle fracture permeability coefficients derived from the well flow vibration equation and the self-developed slug test system, research on the slug test in a field in fractured rock mass was carried out based on the underground water sealed cavern project of the National Huangdao Petroleum Reserve. The formation lithology of the test site was granite gneiss, and the fractures were not developed, which is conducive to the research of slug tests on fracture permeability. On the basis of obtaining the geological information of boreholes by using the self-developed slug test system, comparative research on the segmented slug test and conventional water pressure test was carried out. The test results show that the proposed slug test method and self-developed test system has good accuracy and applicability for determining the fracture permeability coefficient, equivalent permeability coefficient and rock mass permeability coefficient tensor, which is more convenient and efficient than other test methods.

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Interval Prediction of the Permeability of Granite Bodies in a High-Level Radioactive Waste Disposal Site Using LSTM-RNNs and Probability Distribution

Cited by 3 publications

References 39 publications

Prediction Analysis of Fault Mode Sets for High Permeability Distributed Energy Distribution Networks Based on Multivariate Data

Prediction Analysis of Fault Mode Sets for High Permeability Distributed Energy Distribution Networks Based on Multivariate Data

A Novel ISSA–DELM Model for Predicting Rock Mass Permeability

The Application and Analysis of Slug Test on Determining the Permeability Parameters of Fractured Rock Mass

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