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Film Boiling Conjugate Heat Transfer during Immersion Quenching

Author

Listed:
  • Robin Kamenicky

    (Department of Mechanical and Aerospace Engineering, University of Strathclyde, Glasgow G11XJ, UK)

  • Michael Frank

    (Independent Researcher, 6 Geraniumstraat, 5644 NC Eindhoven, The Netherlands)

  • Dimitris Drikakis

    (University of Nicosia, Nicosia CY-2417, Cyprus)

  • Konstantinos Ritos

    (Department of Mechanical and Aerospace Engineering, University of Strathclyde, Glasgow G11XJ, UK
    Department of Mechanical Engineering, University of Thessaly, 38334 Volos, Greece)

Abstract

Boiling conjugate heat transfer is an active field of research encountered in several industries, including metallurgy, power generation and electronics. This paper presents a computational fluid dynamics approach capable of accurately modelling the heat transfer and flow phenomena during immersion quenching: a process in which a hot solid is immersed into a liquid, leading to sudden boiling at the solid–liquid interface. The adopted methodology allows us to couple solid and fluid regions with very different physics, using partitioned coupling. The energy equation describes the solid, while the Eulerian two-fluid modelling approach governs the fluid’s behaviour. We focus on a film boiling heat transfer regime, yet also consider natural convection, nucleate and transition boiling. A detailed overview of the methodology is given, including an analytical description of the conjugate heat transfer between all three phases. The latter leads to the derivation of a fluid temperature and Biot number, considering both fluid phases. These are then employed to assess the solver’s behaviour. In comparison with previous research, additional heat transfer regimes, extra interfacial forces and separate energy equations for each fluid phase, including phase change at their interface, are employed. Finally, the validation of the computational approach is conducted against published experimental and numerical results.

Suggested Citation

  • Robin Kamenicky & Michael Frank & Dimitris Drikakis & Konstantinos Ritos, 2022. "Film Boiling Conjugate Heat Transfer during Immersion Quenching," Energies, MDPI, vol. 15(12), pages 1-23, June.
  • Handle: RePEc:gam:jeners:v:15:y:2022:i:12:p:4258-:d:835280
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    Cited by:

    1. Marcin Trojan & Piotr Dzierwa & Jan Taler & Mariusz Granda & Karol Kaczmarski & Dawid Taler & Tomasz Sobota, 2023. "Analysis of the Causes of the Emergency Shutdown of Natural Gas-Fired Water Peak Boilers at the Large Municipal Combined Heat and Power Plant," Energies, MDPI, vol. 16(17), pages 1-21, August.

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