Journal article

Heat transfer and turbulent heat flux budgets in cooling films

Abstract:: Statistics from large-eddy-simulation (LES) of cooling films with different cooling holes are used to evaluate budgets in the transport equation of turbulent heat flux. The capability of LES has been assessed by comparing simulated results with experimental data, while the correctness of the procedure generating turbulent heat flux budgets has been examined on a turbulent boundary layer. The mechanism of heat transfer has been preliminarily studied throughout the three-dimensional flow field at different blowing ratios using a general outer scaling, to recognize specific regions with corresponding heat transfer patterns. A compressible version of budget terms in the transport equation of turbulent heat flux is then explored to show the thermal behavior of flow downstream from the cooling film holes. Characteristics of each budget term are presented in a defect scaling consistent with the scaling suitable for Reynolds stresses and Reynolds stress budgets. Furthermore, these budget terms are compared among an array of different cooling hole shapes combined with different blowing ratios to explore self-similarity. Results show that the dynamic balance of all budget terms is significantly influenced by the cooling hole shape, while each turbulent heat flux budget term may scale with the velocity defect, temperature deficit, and the normalized streamwise distance to the power of an exponent dependent on the hole shape.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Hao, M., & di Mare, L. (2023). Heat transfer and turbulent heat flux budgets in cooling films. International Journal of Heat and Mass Transfer, 217.

MLA Style

Hao, M., and L. di Mare. “Heat Transfer and Turbulent Heat Flux Budgets in Cooling Films.” International Journal of Heat and Mass Transfer, vol. 217, Elsevier, 2023.

Chicago Style

Hao, M, and L di Mare. 2023. “Heat Transfer and Turbulent Heat Flux Budgets in Cooling Films.” International Journal of Heat and Mass Transfer 217.
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Publisher copy:: 10.1016/j.ijheatmasstransfer.2023.124687

Authors

+ Hao, M More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Engineering Science
Oxford college:: St Catherine's College
Role:: Author
ORCID:: 0000-0001-5998-0021

+ di Mare, L More by this author

Role:: Author

+ Science and Technology Facilities Council More from this funder

Publisher:: Elsevier
Journal:: International Journal of Heat and Mass Transfer More from this journal
Volume:: 217
Article number:: 124687
Publication date:: 2023-09-20
Acceptance date:: 2023-09-05
DOI:: 10.1016/j.ijheatmasstransfer.2023.124687
ISSN:: 0017-9310

Language:: English
Keywords:: gas turbines

FFR

transport equation

film cooling

large eddy simulation

self-similarity

turbulent heat flux

fan-shaped holes

turbulent heat flux budgets
Pubs id:: 1537521
Local pid:: pubs:1537521
Deposit date:: 2023-10-19

Terms of use

Copyright holder:: Hao and di Mare
Copyright date:: 2023
Rights statement:: © 2023 The Author(s). Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/bync-nd/4.0/).

Licence:: CC Attribution-NonCommercial-NoDerivatives (CC BY-NC-ND)

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