Two-dimensional film-cooling effectiveness prediction based on deconvolution neural network

For film cooling in high-pressure turbines, it is vital to predict the temperature distribution and film cooling effectiveness on the blade surface downstream of the cooling hole. This temperature distribution and film cooling effectiveness depend on the interaction between the hot mainstream and th...

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Published inInternational communications in heat and mass transfer Vol. 129; p. 105621
Main Authors Wang, Yaning, Wang, Wen, Tao, Guocheng, Zhang, Xinshuai, Luo, Shirui, Cui, Jiahuan
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2021
Subjects
Deconvolution neural network
Deep learning
Film cooling prediction
Surrogate model
Film cooling prediction
Deep learning
Deconvolution neural network
Surrogate model
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Abstract For film cooling in high-pressure turbines, it is vital to predict the temperature distribution and film cooling effectiveness on the blade surface downstream of the cooling hole. This temperature distribution and film cooling effectiveness depend on the interaction between the hot mainstream and the coolant jet. However, it is difficult to correlate accurately due to the complex mechanism. Based on deep learning techniques, a theoretic model using Deconvolutional Neural Network (Deconv NN) was developed to model the non-linear and high-dimensional mapping between coolant jet parameters and the surface temperature distribution on a flat plate. Computational Fluid Dynamics (CFD) was utilized to provide data for the training models. The input of the model includes blowing ratio, density ratio, hole inclination angle and hole diameters etc. With rigorous testing and validation, it is found that the predicted results are in good agreement with results from CFD. It is compared against the existing semi-empirical correlations and other machine learning techniques, such as support vector machine method. Dataset with different size is tested. The results suggest that the performance and robustness of Deconv NN is much better than other methods.
AbstractList For film cooling in high-pressure turbines, it is vital to predict the temperature distribution and film cooling effectiveness on the blade surface downstream of the cooling hole. This temperature distribution and film cooling effectiveness depend on the interaction between the hot mainstream and the coolant jet. However, it is difficult to correlate accurately due to the complex mechanism. Based on deep learning techniques, a theoretic model using Deconvolutional Neural Network (Deconv NN) was developed to model the non-linear and high-dimensional mapping between coolant jet parameters and the surface temperature distribution on a flat plate. Computational Fluid Dynamics (CFD) was utilized to provide data for the training models. The input of the model includes blowing ratio, density ratio, hole inclination angle and hole diameters etc. With rigorous testing and validation, it is found that the predicted results are in good agreement with results from CFD. It is compared against the existing semi-empirical correlations and other machine learning techniques, such as support vector machine method. Dataset with different size is tested. The results suggest that the performance and robustness of Deconv NN is much better than other methods.
ArticleNumber 105621
Author Wang, Yaning
Tao, Guocheng
Wang, Wen
Zhang, Xinshuai
Cui, Jiahuan
Luo, Shirui
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  fullname: Wang, Wen
  organization: School of Aeronautics and Astronautics, Zhejiang University, Hangzhou, China
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  email: jiahuancui@intl.zju.edu.cn
  organization: School of Aeronautics and Astronautics, Zhejiang University, Hangzhou, China
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Keywords Film cooling prediction
Deep learning
Deconvolution neural network
Surrogate model
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Snippet For film cooling in high-pressure turbines, it is vital to predict the temperature distribution and film cooling effectiveness on the blade surface downstream...
SourceID crossref
elsevier
SourceType Aggregation Database
Publisher
StartPage 105621
SubjectTerms Deconvolution neural network
Deep learning
Film cooling prediction
Surrogate model
Title Two-dimensional film-cooling effectiveness prediction based on deconvolution neural network
URI https://dx.doi.org/10.1016/j.icheatmasstransfer.2021.105621
Volume 129
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