Heat Transfer Characteristics of an Aeroengine Turbine Casing Based on CFD and the Surrogate Model

Lian, Wei; Jiang, Yunfei; Chen, Hao; Li, Yang; Liu, Xianglei

doi:10.3390/en15186743

Cited by 2 publications

(1 citation statement)

References 30 publications

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“…The statistical characteristics of z(x) are the covariance between random variables corresponding to two different points in the design space [ 27 , 28 , 29 , 30 ].

where

represents the correlation function between two sample points, and θ is the relevant parameter.…”

Section: Approximation Modelmentioning

confidence: 99%

Approximation Model Development and Dynamic Characteristic Analysis Based on Spindle Position of Machining Center

Kim

Kim²,

Won

et al. 2022

Materials

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To evaluate the dynamic characteristics at all positions of the main spindle of a machine tool, an experimental point was selected using a full factorial design, and a vibration test was conducted. Based on the measurement position, the resonant frequency was distributed from approximately 236 to 242 Hz. The approximation model was evaluated based on its resonant frequencies and dynamic stiffness using regression and interpolation methods. The accuracy of the resonant frequency demonstrated by the kriging method was approximately 89%, whereas the highest accuracy of the dynamic stiffness demonstrated by the polynomial regression method was 81%. To further verify the approximation model, its dynamic characteristics were measured and verified at additional experimental points. The maximum errors yielded by the model, in terms of the resonant frequency and dynamic stiffness, were 1.6% and 7.1%, respectively.

show abstract

“…The statistical characteristics of z(x) are the covariance between random variables corresponding to two different points in the design space [ 27 , 28 , 29 , 30 ].

where

represents the correlation function between two sample points, and θ is the relevant parameter.…”

Section: Approximation Modelmentioning

confidence: 99%

Approximation Model Development and Dynamic Characteristic Analysis Based on Spindle Position of Machining Center

Kim

Kim²,

Won

et al. 2022

Materials

View full text Add to dashboard Cite

show abstract

Heat Transfer Rate and Fluid Flow Analysis with Design Parameters of Gas Turbine using Beta-clog2-LSTM

Saraireh

2024

Eng. Technol. Appl. Sci. Res.

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A Gas Turbine (GT) is a combustion engine that converts fuel into mechanical energy. None of the conventional models has utilized the stator hub, rotor tip leakage, and inter-stage flow for the optimum design of GT. This study performs an effective design parameter analysis for GT with heat transfer rate and fluid flow detection using Betadecay with cloglog-based Long Short-Term Memory (Beta-clog2-LSTM) and Griewank Siberian Tiger Optimization (G-STO). Initially, the design parameters were taken and the geometry of those parameters was created. Afterward, mesh generation was performed using the Linear Weighted Gradient Smoothing Sliding Mesh Interface (LWGSSMI). Then, the boundaries of the generated mesh were detected. Next, numeric modeling was performed deploying Finite Element Analysis (FEA), followed by flow behavior analysis. The optimal parameters were selected by G-STO. Similarly, the data in a heat transfer rate dataset were preprocessed and the features were extracted. Prediction of heat rate was performed using Beta-clog2-LSTM. Finally, the thermal loss was calculated, and a heat exchanger was utilized to mitigate it. The performance analysis demonstrated the robustness of the proposed method by achieving 0.98 prediction accuracy.

show abstract

Heat Transfer Characteristics of an Aeroengine Turbine Casing Based on CFD and the Surrogate Model

Cited by 2 publications

References 30 publications

Approximation Model Development and Dynamic Characteristic Analysis Based on Spindle Position of Machining Center

Approximation Model Development and Dynamic Characteristic Analysis Based on Spindle Position of Machining Center

Heat Transfer Rate and Fluid Flow Analysis with Design Parameters of Gas Turbine using Beta-clog2-LSTM

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