Your search keyword '"Tuo Xianguo"' showing total 133 results

1. Research and application of convolutional quasi-Gaussian pulse shaping filter algorithm

Author

WANG Huaiping, ZHOU Jianbin, TUO Xianguo, WANG Ming, WANG Xueyuan, and FENG Lin

Subjects

digital pulse processing, quasi-gaussian pulse shaping, trapezoidal pulse shaping, energy resolution, Nuclear engineering. Atomic power, TK9001-9401

Abstract

BackgroundGaussian signals have symmetry and completeness, hence, the Gaussian filtering method is widely used in nuclear signal processing and radiation energy spectrum analysis. The mathematical description of Gaussian signals is relatively complex, which makes it difficult to construct digital Gaussian pulse shaping filters for nuclear pulse signal real-time processing. The commonly used digital quasi-Gaussian shaping algorithm in radiation measurement systems is derived from the differential equations of Sallen-Key and CR-(RC)n filters in analog nuclear electronics. However, its output shaping pulse signals have poor symmetry and problems such as undershoot occur when used in a single stage.PurposeThis study aims to explore the convolutional quasi-Gaussian pulse shaping filter algorithm and apply it to the processing of X-ray fluorescence measurement system experimental platform to obtain measured nuclear pulse data.MethodsFirstly, a convolutional quasi-Gaussian pulse shaping algorithm was implemented based on trapezoidal pulse signals, and bipolar pulse shaping was achieved after the initial convolution. Then, the second convolution was accumulated and summed to obtain left and right symmetric quasi-Gaussian shaping pulses. The digital recursive formula of the quasi-Gaussian pulse shaping algorithm was obtained using the Z-transform method, and the effectiveness of the algorithm and the influence of shaping parameters on the amplitude frequency characteristics were studied through simulation. Finally, quasi-gaussian shaping algorithm and trapezoidal shaping algorithm were applied separately to the offline process of measured nuclear pulse data from the X-ray fluorescence measurement system experimental platform.ResultsThe quasi-Gaussian pulse shaping filter has better high-frequency noise suppression performance compared to trapezoidal pulse shaping filters. With the increase of the values of shaping parameters na and nc, the filter passband decreases whilst the low-frequency amplitude relatively increases, and the high-frequency noise suppression effect is enhanced. However, this also leads to shaping pulse broadening and increases the probability of pulse pile-up.ConclusionsThe experimental results demonstrate that the quasi-Gaussian pulse shaping algorithm has better pile-up pulse separation ability. Under identical X-ray tube voltage and current conditions and peaking time, the energy resolution of the energy spectra obtained by both algorithms is fundamentally equivalent. However, the energy spectrum with quasi-Gaussian pulse shaping has a higher characteristic peak area.

Published

2024

2. The Sr2+ adsorption performance of rock colloids in a cavern disposal repository

Author

YANG Gang, LENG Yangchun, SHEN Tong, and TUO Xianguo

Subjects

cavern-type repository, rock colloid, sr2+, adsorption, Nuclear engineering. Atomic power, TK9001-9401

Abstract

BackgroundIn cave disposal environment, surrounding rock is the last barrier to prevent radionuclides from entering the environment, and the colloid of surrounding rock produced in the long-term disposal process increases the risk of radionuclides migration.PurposeThis study aims to explore the adsorption performance of surrounding rock colloid for Sr2+ disposed the repository, and the stability of surrounding rock colloid.MethodsFirst of all, the surrounding rock colloid sample was prepared with approximate mass concentration of 0.03 g·L-1, zeta potential of 21.53 mV and particle size of 205.7 nm. Then, the effects of time, pH value, various ions under different concentrations, and other factors on the adsorption properties, such as the zeta potential and average particle size of the surrounding rock colloids were investigated by experimental measurements. Finally, the adsorption kinetics and adsorption isothermal model were analyzed.ResultsExperimental results show that the colloid adsorption Sr2+ reaches equilibrium at 12 h, and the equilibrium adsorption capacity is 41.79 mg·g-1. In alkaline environment, the adsorption capacity increases with the increase of pH. The adsorption of Sr2+ by colloid of surrounding rock is inhibited by different ions, and the inhibitory effect of cations is greater than that of anions.ConclusionsResults of this study indicate that pH value, temperature and partial ions in the groundwater of the cave disposal facility all have influence on the stability of surrounding rock, and the surrounding rock colloid has good stability in the groundwater environment of the repository. The adsorption of Sr2+ by surrounding rock colloid conforms to the quasi-second-order kinetic model and the Freundlich adsorption isothermal model.

Published

2024

3. Neutron/gamma (n/γ) discrimination method based on KPCA-MPA-ELM

Author

HU Wanping, ZHANG Guiyu, ZHANG Yunlong, TUO Xianguo, and LI Hulin

Subjects

n/γ discrimination, machine learning, kernel principal component analysis, marine predator algorithm, extreme learning machine, Nuclear engineering. Atomic power, TK9001-9401

Abstract

BackgroundNeutrons/Gamma (n/γ) discrimination is critical for neutron detection in the presence of γ radiation and traditional pulse shape discrimination methods suffer from unstable discrimination accuracy.PurposeThis study aims to implement a machine-learning method that combines the kernel principal component analysis (KPCA), marine predator algorithm (MPA), and extreme learning machine (ELM) is proposed to improve the n/γ discrimination efficiency and accuracy against the traditional pulse shape discrimination methods.MethodsThe KPCA was used to reduce the dimensionality of the pulse signal characteristics of neutrons and gamma rays. Owing to the randomness in the ELM input layer weight and hidden layer bias, the MPA was employed to optimize the foregoing factors to improve the n/γ discrimination accuracy of the ELM. Finally, experimental data of Pu-C neutron source using BC-501A liquid scintillator detector were applied to effectiveness comparison of training and test with and without KPCA dimensionality reduction.ResultsComparison results reveal that the average discrimination accuracy of the KPCA-MPA-ELM is as high as 99.07%, which is 12.19%, 2.52%, and 1.56% higher than those of the ELM, MPA-ELM, and KPCA-ELM models, respectively. Compared with the charge comparison method and pulse gradient analysis method, the accuracy is improved by 1.80% and 5.91%, respectively.ConclusionsThe proposed model has a simple structure, exhibits good stability, hence be applied to handling high-dimensional data with good discrimination and generalization ability.

Published

2024

4. Research progress of organic scintillators for neutron detection

Author

HU Wanping, ZHANG Guiyu, ZHANG Yunlong, and TUO Xianguo

Subjects

neutron detection, organic scintillators, psd, machine learning (ml), figure of merit (fom), Nuclear engineering. Atomic power, TK9001-9401

Abstract

During the neutron detection process, owing to the effects of inelastic scattering and slow neutron capture, a neutron-gamma mixed radiation field is formed, which increases the complexity of neutron detection. Organic scintillators are widely used in neutron detection because of their high flashing efficiency, short decay time, and high detection efficiency. Pulse shape discrimination (PSD) is a key technology for discriminating neutrons and gamma rays according to the difference in pulse shape caused by the difference in particle decay time in organic scintillators. Traditional PSD methods include time-domain and frequency-domain discrimination methods. In recent years, various machine-learning techniques applied to neutron-gamma discrimination have achieved better results. To better use organic scintillators and the corresponding neutron-gamma discrimination methods in neutron detection, we conducted a comprehensive analysis of the glowing mechanism of organic scintillators, PSD principle, organic scintillator types, and neutron-gamma discrimination methods and investigated the performance evaluation indexes of organic scintillators and neutron-gamma discrimination methods. Finally, the future development directions of organic scintillators and neutron-gamma discrimination methods were examined.

Published

2023

5. Adsorption properties of surrounding rock for 137Cs in a cavern-type low and intermediate radioactive waste repository

Author

YANG Gang, LIN Jingruolan, YANG Xueying, TUO Xianguo, PAN Yuelong, and LIU Yu

Subjects

cave-type repository, surrounding rock, 137cs, adsorption, Nuclear engineering. Atomic power, TK9001-9401

Abstract

BackgroundAt present, radioactive waste is treated by deep geological treatment. Caves-type repository as a geological repository near the ground, are more and more international and domestic concern due to its nuclear safety, low environmental pollution and good economy. A cavern-type low and intermediate radioactive waste repository is being constructed in Yangjiang area of Guangdong province, China, the surrounding rock of the waste repository will be the main dispose material of nuclide 137Cs.PurposeThis study aims to investigate the adsorption performance of the surrounding rock of this cavern-type low and intermediate radioactive waste repository for 137Cs.MethodsFirst of all, series of characterization analysis, such as X-ray Fluorescence (XRF), Scanning Electron Microscope (SEM), Transmission Electron Microscope (TEM), Brunauer-Emmett-Teller (BET), Barret-Joyner-Halenda (BJH) were employed to observe crystal structure and content of the surrounding rock of the waste repository. Irregular sheet-like structures stacked, the sheets in a compacted state, and the surface groups such as -OH, Si-O-Si, Si-O-Al, Si-O, etc. were shown to have good crystal structure and the highest SiO2 composite content. Then, the effects of time, pH value, solid-liquid ratio, initial radioactive activity concentration, and ions on the adsorption were investigated through static adsorption experiments. Finally, the adsorption kinetics and adsorption isotherm models were analyzed.ResultsThe results show that when the solid-liquid ratio is 5 g∙L-1, the initial radioactivity is 1 114.5 Bq∙L-1, the adsorption equilibrium time is 12 h, the equilibrium adsorption rate is 40.41%, and the equilibrium adsorption capacity is 90.07 Bq∙g-1. The adsorption rate increases with the increase of the solid-liquid ratio, and decreases with the increase of the initial radioactivity. The adsorption is inhibited under acidic conditions, but has little effect under neutral and alkaline conditions. Different ions inhibit the adsorption of 137Cs on the surrounding rock of the repository, and K+ has the greatest inhibition.ConclusionsThe adsorption of 137Cs by the surrounding rock is more in line with the pseudo-second-order kinetic model and the Freundlich adsorption isotherm model, providing the basic data for nuclear waste geological disposal engineering.

Published

2022

6. Development of a radioactive waste measurement system using arrayed NaI(Tl) detectors

Author

Yang, Guang, Shi, Rui, Wang, Zhou, and Tuo, Xianguo

Published

2024

7. Preparation of M15 cement mortar and its adsorption property as well as mechanism for Co2+

Author

YANG Gang, PAN Yuelong, LIU Yu, LENG Yangchun, CHENG Jianfeng, and TUO Xianguo

Subjects

m15 cement mortar, co2+, adsorption, Nuclear engineering. Atomic power, TK9001-9401

Abstract

BackgroundCement mortar is an essential building and barrier material for geological disposal repositories of radioactive waste. Therefore, it is of great significance to study the preparation of the cement mortar and its adsorption property and mechanism for radionuclides.PurposeThis study aims to study the preparation of M15 cement mortar and its adsorption property as well as mechanism for Co2+.MethodsA cavern-type low and/or intermediate-level radioactive waste repository under construction in the South China was selected as a real reference for the design and manufacture of M15 cement mortar. Adsorption properties of the M15 cement mortar for Co2+ were determined through the static batch test method combined with the inductively coupled plasma atomic emission spectrometry analysis. Characterization analyses of the M15 cement mortar were performed by X-ray fluorescence spectrometer, X-ray diffractometer, infrared spectrometer and scanning electron microscope.ResultsCompressive strength tests show that the M15 cement mortar with cement:sand:water mass ratio of 1.0∶4.84∶0.84 meets compressive requirements. The characterization analyses reveal that the M15 cement mortar had good crystal structure, large specific surface area, amorphous distribution of particles and surface distributed with a large number of groups, such as OH-, HCO3-, CO32-, SiO42-. Adsorption results from the static batch test show that: (1) the adsorption equilibrium time, adsorption distribution coefficient (Kd) value, adsorption rate and adsorption capacity of the M15 cement mortar are 6 h, 1 453.93 mL∙g-1, 74.14% and 73.37 mg∙g-1, respectively, (2) the Kd value, adsorption rate and adsorption capacity increase with the decrease of particle size, (3) the Kd value is 1 626.02 mL∙g-1 when the solid-liquid ratio is 2 g∙L-1, indicating that the M15 cement mortar has good absorption capability for Co2+, (4) the Kd values rise with the increase of pH values of water phase, and (5) the order of inhibition effects of ions on the Co2+ adsorption is Mg2+>Ca2+>SO42->NO3->Cl->K+. Adsorption mechanism of the M15 cement mortar for Co2+ can be described with the pseudo-second-order kinetic model and Langmuir adsorption isotherm model.ConclusionsThis study provides a useful reference for the preparation of superior performance cement mortar to build disposal repositories of radioactive waste.

Published

2021

8. A SGS efficiency calibration method for measuring the radioactive waste drum based on Monte Carlo simulation and function model

Author

Zheng, Honglong, Tuo, Xianguo, Yang, Jianbo, Li, Rui, Yang, Guang, Feng, Haojun, Fu, Yongdong, Chen, Jie, and Xu, Jie

Published

2024

9. An efficiency calibration method of segmented gamma scanning in reconstructing radioactive waste drum activity

Author

Zheng, Honglong, Tuo, Xianguo, Wang, Zhou, Gou, Rui, Liu, Qi, Li, Qiang, Shi, Rui, and Yang, Guang

Published

2024

10. Novel Maximum Likelihood Estimation of Clock Skew in One-Way Broadcast Time Synchronization

Author

Shi, Fanrong, Li, Huailiang, Yang, Simon X., Tuo, Xianguo, and Lin, Maosong

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

Clock skew compensation is essential for accurate time synchronization in wireless networks. However, contemporary clock skew estimation is based on inaccurate transmission time measurement, which makes credible estimation challenging. Based on one-way broadcast synchronization, this study presents a novel maximum likelihood estimation (MLE) with an innovative implementation to minimize the clock skew estimation error caused by delay. A multiple one-way broadcast model is developed for observation and set collection, while the distribution of actual delay is discussed. A clock skew MLE based on Gaussian delay is then proposed and its Cramer-Rao lower bound provided. The developed MLE is independent of the clock offset estimation, and requires only two synchronization periods to generate an accurate estimation. Extensive experimental results indicate that the performance of the proposed MLE is better than the methods popularly used in existing time synchronization protocols., Comment: 10 pages, Journal

Published

2022

11. Fast Convergence Time Synchronization in Wireless Sensor Networks Based on Average Consensus

Author

Shi, Fanrong, Tuo, Xianguo, Ran, Lili, Ren, Zhenwen, and Yang, Simon X.

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

Average consensus theory is intensely popular for building time synchronization in wireless sensor network (WSN). However, the average consensus-based time synchronization algorithm is based on iteration that pose challenges for efficiency, as they entail high communication cost and long convergence time in large-scale WSN. Based on the suggestion that the greater the algebraic connectivity leads to the faster the convergence, a novel multi-hop average consensus time synchronization (MACTS) is developed with innovative implementation in this paper. By employing multi-hop communication model, it shows that virtual communication links among multi-hop nodes are generated and algebraic connectivity of network increases. Meanwhile, a multihop controller is developed to balance the convergence time, accuracy and communication complexity. Moreover, the accurate relative clock offset estimation is yielded by delay compensation. Implementing the MACTS based on the popular one-way broadcast model and taking multi-hop over short distances, we achieve hundreds of times the MACTS convergence rate compared to ATS., Comment: 10 pages, Journal

Published

2022

12. Rapid-Flooding Time Synchronization for Large-Scale Wireless Sensor Networks

Author

Shi, Fanrong, Tuo, Xianguo, Yang, Simon X., Lu, Jing, and Li, Huailiang

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

Accurate and fast-convergent time synchronization is very important for wireless sensor networks. The flooding time synchronization converges fast, but its transmission delay and by-hop error accumulation seriously reduce the synchronization accuracy. In this article, a rapidflooding multiple one-way broadcast time-synchronization (RMTS) protocol for large-scale wireless sensor networks is proposed. To minimize the by-hop error accumulation, the RMTS uses maximum likelihood estimations for clock skew estimation and clock offset estimation, and quickly shares the estimations among the networks. As a result, the synchronization error resulting from delays is greatly reduced, while faster convergence and higher-accuracy synchronization is achieved. Extensive experimental results demonstrate that, even over 24-hops networks, the RMTS is able to build accurate synchronization at the third synchronization period, and moreover, the by-hop error accumulation is slower when the network diameter increases., Comment: 10 pages, 10 figures, Journal

Published

2022

13. A Novel Rapid-flooding Approach with Real-time Delay Compensation for Wireless Sensor Network Time Synchronization

Author

Shi, Fanrong, Yang, Simon X., Tuo, Xianguo, Ran, Lili, and Huang, Yuqing

Subjects

Computer Science - Networking and Internet Architecture

Abstract

One-way-broadcast based flooding time synchronization algorithms are commonly used in wireless sensor networks (WSNs). However, the packet delay and clock drift pose challenges to accuracy, as they entail serious by-hop error accumulation problems in the WSNs. To overcome it, a rapid flooding multi-broadcast time synchronization with real-time delay compensation (RDC-RMTS) is proposed in this paper. By using a rapid-flooding protocol, flooding latency of the referenced time information is significantly reduced in the RDC-RMTS. In addition, a new joint clock skew-offset maximum likelihood estimation is developed to obtain the accurate clock parameter estimations, and the real-time packet delay estimation. Moreover, an innovative implementation of the RDC-RMTS is designed with an adaptive clock offset estimation. The experimental results indicate that, the RDC-RMTS can easily reduce the variable delay and significantly slow the growth of by-hop error accumulation. Thus, the proposed RDC-RMTS can achieve accurate time synchronization in large-scale complex WSNs., Comment: 14 pages, 11 figures

Published

2022

14. Optimization and shielding design of a thermal neutron device based on D-D neutron generator with Geant4 toolkit

Author

Yang, Guang, Shi, Rui, Yang, Jianbo, and Tuo, Xianguo

Published

2024

15. Redox-active phytic acid-based self-assembled hybrid material for enhanced uranium adsorption from highly acidic solution

Author

Lei, Hao, Song, Shilong, Pan, Ning, Zou, Hao, Wang, Xiaoqiang, and Tuo, Xianguo

Published

2024

16. Radioactive Source Localization Method for the Partially Coded Field-of-View of Coded-Aperture Imaging in Nuclear Security Applications

Author

Liu, Qi, Cheng, Yi, Tuo, Xianguo, Yang, Yongliang, and Iniewski, Krzysztof (Kris), editor

Published

2023

17. Hollow self-assembled hybrid framework based on phytic acid for U(VI) capture from highly acidic aqueous media

Author

Lei, Hao, Pan, Ning, Zou, Hao, Wang, Xiaoqiang, and Tuo, Xianguo

Published

2023

18. An efficiency function model of segmented gamma scanning for measuring radioactive waste drum

Author

Zheng, Honglong, Tuo, Xianguo, Zhao, Wei, Yang, Guang, Li, Yuhao, Shi, Rui, and Liu, Qi

Published

2023

19. Study of the 137Cs adsorption performance of ion-eroded cement

Author

Yang, Gang, Wang, Yanhui, Yang, Xueying, Pan, Yuelong, Liu, Yu, Cheng, Jianfeng, Jiang, Qiao, and Tuo, Xianguo

Published

2022

20. Structural Optimization of High-Pressure Polyimide Mixers Based on Neural Networks and Genetic Algorithms

Author

Yang, Guo, primary, Hu, Guangzhong, additional, Tuo, Xianguo, additional, Li, Yuedong, additional, and Lu, Jing, additional

Published

2024

21. Simulation of nuclide migration in a middle- and low-level radioactive waste repository based on GMS

Author

Wang, Litao, Cheng, Jianfeng, Bao, Chenyang, Wang, Yanhui, Jiang, Qiao, Pan, Yuelong, Liu, Yu, Hong, Tao, Tuo, Xianguo, and Leng, Yangchun

Published

2022

22. Preparation of C30 concrete and its adsorption performance for Cs(I)

Author

Yang, Gang, Wang, Yanhui, Yang, Xueying, Pan, Yuelong, Liu, Yu, Cheng, Jianfeng, Jiang, Qiao, and Tuo, Xianguo

Published

2022

23. Sorption of cesium on surrounding granite of Chinese low- and medium-level nuclear waste repository in the groundwater environment

Author

Jiang, Qiao, Wang, Yanhui, Cheng, Jianfeng, Pan, Yuelong, Ren, Jiafu, Leng, Yangchun, Liu, Yu, Bao, Chengyang, Wang, Litao, and Tuo, Xianguo

Published

2022

24. Radioactive Source Localization Method for the Partially Coded Field-of-View of Coded-Aperture Imaging in Nuclear Security Applications

Author

Liu, Qi, primary, Cheng, Yi, additional, Tuo, Xianguo, additional, and Yang, Yongliang, additional

Published

2022

25. Temperature dependence of SiPM array coupled Cs[formula omitted]LiYCl[formula omitted]:Ce[formula omitted] detector performance

Author

Wang, Qibiao, Dai, Heng, Deng, Chao, Xie, Bo, Wu, Yadong, and Tuo, Xianguo

Published

2022

26. Effect of high-dose γ-ray irradiation on the structural stability and U(VI) adsorption ability of bentonite

Author

Cheng, Jianfeng, Gu, Runqiu, He, Panqing, Pan, Yuelong, Leng, Yangchun, Wang, Yanhui, Liu, Yu, Zhu, Meiying, and Tuo, Xianguo

Published

2022

27. A Rapid Nondestructive Detection Method for Liquor Quality Analysis Using NIR Spectroscopy and Pattern Recognition

Author

Zhang, Guiyu, primary, Tuo, Xianguo, additional, Peng, Yingjie, additional, Li, Xiaoping, additional, and Pang, Tingting, additional

Published

2024

28. A pulse selection algorithm for SiPM-coupled CLYC detectors

Author

Dai, Heng, primary, Yang, Hngchao, additional, Tang, Hui, additional, Deng, Chao, additional, Xie, Bo, additional, Tuo, Xianguo, additional, Jiang, Gang, additional, and Wang, Qibiao, additional

Published

2024

29. Improved Double Deep Q-Network Algorithm Applied to Multi-Dimensional Environment Path Planning of Hexapod Robots

Author

Chen, Liuhongxu, primary, Wang, Qibiao, additional, Deng, Chao, additional, Xie, Bo, additional, Tuo, Xianguo, additional, and Jiang, Gang, additional

Published

2024

30. Compressed Sampling for Neutron ToF Signals Based on SAMP Algorithm

Author

Wang, Qibiao, primary, Wang, Shujun, additional, Tang, Yinghong, additional, Deng, Chao, additional, Xie, Bo, additional, and Tuo, Xianguo, additional

Published

2024

31. Optimization Design of a Polyimide High-Pressure Mixer Based on SSA-CNN-LSTM-WOA.

Author

Yang, Guo, Hu, Guangzhong, Tuo, Xianguo, Li, Yuedong, and Lu, Jing

Subjects

CONVOLUTIONAL neural networks, METAHEURISTIC algorithms, COMPUTATIONAL fluid dynamics, FACTORIAL experiment designs, MATERIALS handling

Abstract

Foam mixers are classified as low-pressure and high-pressure types. Low-pressure mixers rely on agitator rotation, facing cleaning challenges and complex designs. High-pressure mixers are simple and require no cleaning but struggle with uneven mixing for high-viscosity substances. Traditionally, increasing the working pressure resolved this, but material quality limits it at higher pressures. To address the issues faced by high-pressure mixers when handling high-viscosity materials and to further improve the mixing performance of the mixer, this study focuses on a polyimide high-pressure mixer, identifying four design variables: impingement angle, inlet and outlet diameters, and impingement pressure. Using a Full Factorial Design of Experiments (DOE), the study investigates the impacts of these variables on mixing unevenness. Sample points were generated using Optimal Latin Hypercube Sampling—OLH. Combining the Sparrow Search Algorithm (SSA), Convolutional Neural Network (CNN), and Long Short-Term Memory Network (LSTM), the SSA-CNN-LSTM model was constructed for predictive analysis. The Whale Optimization Algorithm (WOA) optimized the model, to find an optimal design variable combination. The Computational Fluid Dynamics (CFD) simulation results indicate a 70% reduction in mixing unevenness through algorithmic optimization, significantly improving the mixer's performance. [ABSTRACT FROM AUTHOR]

Published

2024

32. Self-Supervised Convolutional Clustering for Picking the First Break of Microseismic Recording

Author

Li, Huailiang, primary, He, Jian, additional, Tuo, Xianguo, additional, Wen, Xiaotao, additional, and Yang, Zhen, additional

Published

2024

33. Redox-active phytic acid-based self-assembled hybrid material for enhanced uranium adsorption from highly acidic solution

Author

Lei, Hao, primary, Song, Shilong, additional, Pan, Ning, additional, Zou, Hao, additional, Wang, Xiaoqiang, additional, and Tuo, Xianguo, additional

Published

2023

34. Research on a Neutron Detector with a Boron-Lined Multilayer Converter.

Author

Deng, Chao, Hu, Qin, Li, Pengcheng, Wang, Qibiao, Xie, Bo, Yang, Jianbo, and Tuo, Xianguo

Subjects

NEUTRON counters, GASES, NEUTRON scattering, PARTICLE emissions, THERMAL neutrons, NEUTRONS

Abstract

3He is a splendid neutron detection material due to its high neutron reaction cross section, gaseous state, and nonelectronegative and nonpoisonous nature. With the worldwide problem of the "3He supply crisis" arising, boron-lined gaseous neutron detectors are being widely used in neutron detection to replace 3He neutron detectors. In this work, to reduce the scattering neutron background coming from the substrate of a boron-lined neutron detector in the application of neutron scattering, a new design of the boron-lined gaseous neutron detector composed of a boron-lined multichip converter and a multiwire proportional chamber was proposed. The electron drift efficiency matrix simulated by Garfield++ (Version 2023.4) and the values and positions of electron energy deposition simulated by Geant4 were obtained. The α, 7Li, and total charged particle energy deposition spectra were acquired via coupling calculations of the electron drift efficiency matrix and the values and positions of electron energy deposition, and the width of the slit was selected as 3 mm. The boron-lined multilayer converter neutron detector (BMCND) was tested using a 241Am–239Pu mixture α source, and the total count rate of α charged particles was measured as 599.5 s−1, which is 89% of the theoretical α particle emission rate of 672.9 s−1. The drift voltage experiments showed that 1200 V is enough to acquire a relatively ideal count, and a 2500 V drift voltage was confirmed, considering the higher count and instrument safety. We also performed the neutron detection experiments using a photo-neutron source, and a characteristic spectrum shape of "two stairs" was measured. When borated polyethylene was used to shield the BMCND, the detected total count decreased while keeping the characteristic spectrum shape, demonstrating that the BMCND was equipped with the ability to detect neurons, indicating that BMCNDs have the potential to be an outstanding 3He alternative neutron detector. [ABSTRACT FROM AUTHOR]

Published

2024

35. Accurate Capacity Prediction and Evaluation with Advanced SSA-CNN-BiLSTM Framework for Lithium-Ion Batteries.

Author

Lin, Chunsong, Tuo, Xianguo, Wu, Longxing, Zhang, Guiyu, and Zeng, Xiangling

Subjects

LITHIUM-ion batteries, CONVOLUTIONAL neural networks, ELECTRIC vehicle batteries, ELECTRIC batteries, SEARCH algorithms, FEATURE extraction, OPTIMIZATION algorithms

Abstract

Lithium-ion batteries (LIBs) have been widely used for electric vehicles owing to their high energy density, light weight, and no memory effect. However, their health management problems remain unsolved in actual application. Therefore, this paper focuses on battery capacity as the key health indicator and proposes a data-driven method for capacity prediction. Specifically, this method mainly utilizes Convolutional Neural Network (CNN) for automatic feature extraction from raw data and combines it with the Bidirectional Long Short-Term Memory (BiLSTM) algorithm to realize the capacity prediction of LIBs. In addition, the sparrow search algorithm (SSA) is used to optimize the hyper-parameters of the neural network to further improve the prediction performance of original network structures. Ultimately, experiments with a public dataset of batteries are carried out to verify and evaluate the effectiveness of capacity prediction under two temperature conditions. The results show that the SSA-CNN-BiLSTM framework for capacity prediction of LIBs has higher accuracy compared with other original network structures during the multi-battery cycle experiments. [ABSTRACT FROM AUTHOR]

Published

2024

36. An Anisotropic Velocity Model for Microseismic Events Localization in Tunnels

Author

Shen, Tong, primary, Wang, Songren, additional, Jiang, Xuan, additional, Peng, Guili, additional, and Tuo, Xianguo, additional

Published

2023

37. Novel Phytic Acid-Based Supramolecular Material for Uranium Removal from Highly Acidic Media: Synthesis, Performance, and Mechanistic Insights

Author

Lei, Hao, primary, Huang, Shuangshuang, additional, Pan, Ning, additional, Zou, Hao, additional, Wang, Xiaoqiang, additional, and Tuo, Xianguo, additional

Published

2023

38. A Novel Polarization Estimation Method for Seismic Recordings

Author

Li, Linjia, primary, Li, Huailiang, additional, Tuo, Xianguo, additional, Yang, Zhen, additional, and Rong, Wenzheng, additional

Published

2023

39. Weak-Edge Extraction of Nuclear Plate Fuel Neutron Images at Low Lining Degree

Author

Wang, Qibiao, primary, Luo, Yushi, additional, Sun, Yong, additional, Wu, Yang, additional, Tang, Bin, additional, Peng, Shuming, additional, and Tuo, Xianguo, additional

Published

2023

40. A Reliable Online Dictionary Learning Denoising Strategy for Noisy Microseismic Data

Author

He, Jian, primary, Li, Huailiang, additional, Tuo, Xianguo, additional, Wen, Xiaotao, additional, and Feng, Liyuan, additional

Published

2023

41. Unsupervised Clustering of Microseismic Signals Using a Contrastive Learning Model

Author

Yang, Zhen, primary, Li, Huailiang, additional, Tuo, Xianguo, additional, Li, Linjia, additional, and Wen, Junnan, additional

Published

2023

42. Attitude Estimation of Quadrotor UAV based on QUKF

Author

Liang, Tao, primary, Yang, Kailai, additional, Han, Qiang, additional, Li, Chenjie, additional, Li, Junlin, additional, Deng, Qingwen, additional, Chen, Shidong, additional, and Tuo, Xianguo, additional

Published

2023

43. Design of Baijiu Blending Control System

Author

Li, Chenjie, primary, Tuo, Xianguo, additional, Han, Qiang, additional, Li, Jinsong, additional, Zhang, Huaishan, additional, and Zou, Jiangpeng, additional

Published

2022

44. WITHDRAWN: A review of neutron detection using organic scintillators

Author

Hu, Wanping, primary, Zhang, Guiyu, additional, Zhang, Yunlong, additional, and Tuo, Xianguo, additional

Published

2022

45. WITHDRAWN: A review of neutron detection using organic scintillators

Author

Hu, Wanping, Zhang, Guiyu, Zhang, Yunlong, and Tuo, Xianguo

Published

2023

46. Software of Radioactivity Measurement and Control System for Barreled Nuclear Waste With Segmented Gamma Scanning

Author

Liu Yitang, Shi Rui, Wang Zhou, Wang Zhenchuan, Lan Yunliang, Zhao Wei, and Tuo Xianguo

Abstract

Segmented Gamma Scanning (SGS) is a kind of nondestructive testing (NDT) techniques, widely used in online detection for nuclear waste drums to record the types and contents of radionuclides in the nuclear wastes. It is convenient to classify and dispose of nuclear waste according to the test results, and it also avoids radiation damage to inspectors from the destructive analysis. A new software of the radioactive analysis and monitoring system for nuclear waste barrels with SGS was developed in this work, which is mainly composed of two parts including control upper computer software and radionuclide analysis software, in which control software contained motion control and Multi-channel Analyzer (MCA) control. The controlling of the mechanical platform realized the rotation of the waste drums and the synchronous lifting and lowering of the transmission source and the detector, so as to facilitate the layered scanning of the drums. The motion control is an indispensable part of the detection system, whose precision of the movement is directly affected the accuracy of the detection results. In the radioactive measurement, a high purity germanium (HPGe) gamma-ray spectrometer was used to obtain the gamma-ray spectrum, in which the MCA was responsible for the control of spectrometer and gamma-ray spectrum data record. Therefore, the MCA control part must adjust the high voltage of the HPGe and the parameters of measurement. The gamma-ray spectrum contained the radioactive information of the nuclear wastes in the drums. The analysis of the radioactive data is the core of the software, including spectrum data resolving and the radioactive reconstructed of the radionuclides in the drums. Finally, the information such as the type and activity of the radionuclides in the barrels was provided to the user. The software was written with the C# programming language, which realized the accurate control and operation of the mechanical device and the orderly performed of motion detection. To establish communication, the software used Ethernet’s TCP/IP as the control network, in which the manual mode and auto mode were alternatives. In conclusion, the software promotes the coordination and integration of motion control, MCA control and gamma-ray spectrum data analysis in the process of automatic detection of barreled nuclear waste with SGS.

Published

2022

47. Adsorption Properties of Cs(I) and Co(II) on GMZ Bentonite Colloids

Author

Wang, Yanhui, primary, Jiang, Qiao, additional, Yang, Yexin, additional, Cheng, Jianfeng, additional, Bao, Chenyang, additional, Pan, Yuelong, additional, Liu, Yu, additional, Yang, Gang, additional, Leng, Yangchun, additional, and Tuo, Xianguo, additional

Published

2022

48. Design and Implementation of a Spherical Robot for Radiation Monitoring

Author

Lu, Jing, primary, Tuo, Xianguo, additional, Liu, Haolin, additional, and Shi, Fanrong, additional

Published

2022

49. Improvement in Trapezoidal Pulse Shaping Pile-Up in Nuclear Signal Processing

Author

Wu, Junlong, primary and Tuo, Xianguo, additional

Published

2022

50. A collimator design method for the tomographic gamma scanning system with a fan-shaped NaI(Tl) detector array

Author

Mu, Xiangfan, primary, Shi, Rui, additional, Luo, Geng, additional, and Tuo, Xianguo, additional

Published

2022