Case Studies in Thermal Engineering (Jun 2024)

A real-time solution method for three-dimensional steady temperature field of transformer windings based on mechanism-embedded cascade network

  • Yunpeng Liu,
  • Qingxian Zhao,
  • Gang Liu,
  • Ying Zou,
  • Shuqi Zhang,
  • Ke Wang,
  • Xiaolin Zhao

Journal volume & issue
Vol. 58
p. 104444

Abstract

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To enhance the computation efficiency and accuracy of three-dimensional steady temperature field of transformer windings, we propose a new non-invasive Reduced Order Model (ROM) based on a mechanism-embedded cascade network. Initially, a snapshot matrix is formed from the Full Order Model (FOM) and then combined with Proper Orthogonal Decomposition (POD) to extract key modal features that characterize the temperature field. Subsequently, a cascade network architecture, integrating Multilayer Perceptron (MLP) and Radial Basis Function Neural Network (RBFNN), is devised to swiftly map working condition parameters to modal coefficients. Additionally, the cascade network is embedded with condition sensitivity and modal contribution mechanisms to further enhance prediction accuracy. Finally, by linearly weighting the modes with predicted modal coefficients, a rapid reconstruction of the steady temperature field in transformer windings is achieved. Validation against Fluent software simulations and experimental measurements demonstrate a close agreement, with computational errors of less than 4K and an impressive single solution time of only 0.0087 s, which is 48760 times faster compared to Fluent software.

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