The Tools and Parameters to Consider in the Design of Power Transformer Cooling Systems

Goscinski, Przemyslaw; Nadolny, Zbigniew; Nawrowski, Ryszard; Boczar, Tomasz

doi:10.3390/en16248000

Cited by 2 publications

(1 citation statement)

References 36 publications

(39 reference statements)

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“…It should be noted that the approach using the heat transfer coefficient may yield slightly distorted results, as heat transfer is non-uniformly distributed on the walls of the transformer winding as shown in [141]. Additionally, the heat transfer coefficient varies greatly depending on temperature and other system parameters.…”

Section: Conjugate Heat Transfer Simulation Reviewmentioning

confidence: 99%

Review of Modeling Approaches for Conjugate Heat Transfer Processes in Oil-Immersed Transformers

Smolyanov,

Shmakov,

Butusov

et al. 2024

Computation

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This review addresses the modeling approaches for heat transfer processes in oil-immersed transformer. Electromagnetic, thermal, and hydrodynamic thermal fields are identified as the most critical aspects in describing the state of the transformer. The paper compares the implementation complexity, calculation time, and details of the results for different approaches to creating a mathematical model, such as circuit-based models and finite element and finite volume methods. Examples of successful model implementation are provided, along with the features of oil-immersed transformer modeling. In addition, the review considers the strengths and limitations of the considered models in relation to creating a digital twin of a transformer. The review concludes that it is not feasible to create a universal model that accounts for all the features of physical processes in an oil-immersed transformer, operates in real time for a digital twin, and provides the required accuracy at the same time. The conducted research shows that joint modeling of electromagnetic and thermal processes, reducing the dimensionality of models, provides the most comprehensive solution to the problem.

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Section: Conjugate Heat Transfer Simulation Reviewmentioning

confidence: 99%

Review of Modeling Approaches for Conjugate Heat Transfer Processes in Oil-Immersed Transformers

Smolyanov,

Shmakov,

Butusov

et al. 2024

Computation

View full text Add to dashboard Cite

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Thermal Analysis of Power Transformer Using 2D and 3D Finite Element Method

Seddik,

Shazly,

Eteiba

2024

Energies

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An accurate simulation and computational analysis of temperature distribution in large power transformers used in power plants is crucial during both the design and operational phases. This study introduces a thermal modeling analysis encompassing two- and three-dimensional (2D and 3D) approaches for power transformers. The mathematical model for heat diffusion follows the Finite Element Method (FEM) approach. Validation of the computed results involves comparing them against measurements from Hyundai’s test report for both 2D and 3D models, aiming to identify the most effective solution. Additionally, the thermal dynamics of power transformers under diverse operational conditions, specifically oil-immersed ones, are examined. The efficacy of this model is confirmed through testing on a step-up transformer at Kureimat station in Egypt, with specifications including three-phase, 50 Hz, 16.5/240 KV, nine taps, and cooling type (ONAN/ONAF1/ONAF2).

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The Tools and Parameters to Consider in the Design of Power Transformer Cooling Systems

Cited by 2 publications

References 36 publications

Review of Modeling Approaches for Conjugate Heat Transfer Processes in Oil-Immersed Transformers

Review of Modeling Approaches for Conjugate Heat Transfer Processes in Oil-Immersed Transformers

Thermal Analysis of Power Transformer Using 2D and 3D Finite Element Method

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