Your search keyword '"张钰奇"' showing total 6 results

1. 约束并行自适应代理模型优化算法及 在弧形闸门优化设计中的应用.

Author

王金涛, 徐 平, 铁 瑛, and 张钰奇

Published

2024

2. 数字孪生驱动的高保真水工闸门剩余寿命预测.

Author

熊景然, 张钰奇, 朱潇, 张岩, 杨涛, and 李成

Abstract

Copyright of China Rural Water & Hydropower is the property of China Rural Water & Hydropower Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. 液压启闭弧形闸门多领域工作特性分析及故障模拟.

Author

李瑞, 徐平, 铁瑛, and 张钰奇

Subjects

METAL fractures, FAILURE mode & effects analysis, MATHEMATICAL optimization, MULTISCALE modeling, STEEL, METALS, SYSTEM failures

Abstract

Copyright of Machine Tool & Hydraulics is the property of Guangzhou Mechanical Engineering Research Institute (GMERI) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

4. 溢洪道水工金属结构安全监测虚拟系统研究.

Author

谭浩迪, 张钰奇, and 赵华东

Subjects

VIRTUAL reality, DYNAMIC simulation, VIRTUAL design, SPILLWAYS, DATA visualization, HYDRAULIC structures, HEAD-mounted displays

Abstract

Copyright of China Rural Water & Hydropower is the property of China Rural Water & Hydropower Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

5. 露顶式弧形闸门静动态应力数值分析与试验验证.

Author

张 聪, 张钰奇, 王童童, 王 茂, 赵华东, and 李松涛

Abstract

In order to check and realize the structural health monitoring of the emersed radial gate in the spillway of a reservoir, the different operating conditions of the emersed radial gate were studied, and the static and dynamic stress and deformation of the emersed radial gate under opening and closing conditions were analyzed in combination with relevant standards. The stress and deformation of the emersed radial gate under the conditions of 0-6.5 m water depth and 0-6 m opening were analyzed and calculated by numerical simulation method. The stress sensor was arranged on the radial gate to measure the static and dynamic stress of the radial gate in the static and opening and closing process under the water depth of 1.4 m. The results show that the equivalent stress value of the radial gate panel reaches the maximum value at the moment when the gate is opened in 6.5 m water depth, and the maximum equivalent stress value is 148.71 MPa. The effect of the radial gate except the panel reaches the maximum value when the gate opening is 6 m, and its maximum value is 207.63 MPa. The main and secondary beams of the radial gate reach their maximum values at the moment when the gate is opened in the water depth of 6.5 m. The maximum total deformation of the main beam is 8.46 mm and the maximum deformation of the secondary beam is 8.65 mm. Combined with the results of simulation analysis and the measured data of the sensor, the error between the two is within 20%. [ABSTRACT FROM AUTHOR]

Published

2023

6. 泄流激励下水工闸门运行模态参数自动识别.

Author

张钰奇, 赵华东, 付春健, 铁 瑛, and 李何林

Subjects

*TOEPLITZ matrices, *STRUCTURAL health monitoring, *SINGULAR value decomposition, *PARAMETER identification, *AUTOMATIC identification, *DRAINAGE

Abstract

Structural health monitoring (SHM) of hydraulic steel gates is one of the most important technologies for the safety of water conservancy and agriculture. Among them, the modal parameter identification of SHM can provide the key information for the gate vibration control, model correction, and damage identification. However, the calculation peaks can be generated by the overestimation of the model order, while the noise spikes can be introduced by the measurement noise in the process of modal parameter identification of hydraulic gate operation. There is also a great interference with the modal parameters. Some manual participation can be required in the modal model grading and modal selection during steady-state graph recognition. In this study, an improved potential energy clustering (PHA) covariance-driven stochastic subspace (COV-SSI) hydraulic gate automatic modal parameter identification was proposed to automatically identify the operational modal parameters of hydraulic gates under the flow release excitation. The modal parameters of the hydraulic gate were identified using only the output response signal under the structural drainage excitation. The dynamic characteristics of the structure were also revealed under the real boundary and load working conditions. Firstly, the vibration signals were collected to process by noise reduction using the wavelet threshold method. The spurious modes were then reduced to optimize the quality of vibration signals due to environmental noise. Secondly, the Toeplitz matrix was constructed using the COV-SSI. The response signals were then obtained to decompose by singular value decomposition (SVD). The system order n and the maximum order nmax of the steady-state graph were automatically determined by the singular value weighted judgment index (SWI). The noise mode was also eliminated in the steady-state graph. Then, the PHA was used to realize the automatic identification of structural model parameters. Finally, the accuracy of the improved model was verified by the numerical calculation of the two-degree-of-freedom mass-spring-damping system, followed by an experimental model of an arc gate under drainage excitation, and the comparison with the hammering test. The results show that the new identification was automatically determined the system order and the maximum order of the steady-state diagram without the artificial excitation, and the false poles in the steady-state diagram. An automatic identification was also realized for the model parameters of hydraulic gates under drainage excitation. The maximum and average relative errors of the test were 8.5% and 3.5%, respectively, compared with the hammering method. Therefore, the COV-SSI and potential clustering can be expected to identify the online modal parameters of hydraulic gates. The automatically fixed-order stability diagrams were reduced the influence of human factors, indicating the better identification of modal parameters in the hydraulic gates under the discharge excitation. This finding can provide a promising application for the health monitoring and safety analysis during the hydraulic gates in service. Especially, the artificial forces and excitation signal measurement were greatly reduced for the modal parameters. [ABSTRACT FROM AUTHOR]

Published

2022