Heat transport in bubbling turbulent convection

dc.contributor.authorLakkaraju, Rajaram
dc.contributor.authorStevens, Richard J.A.M.
dc.contributor.authorOresta, Paolo
dc.contributor.authorVerzicco, Roberto
dc.contributor.authorLohse, Detlef
dc.contributor.authorProsperetti, Andrea
dc.description.abstractBoiling is an extremely effective way to promote heat transfer from a hot surface to a liquid due to numerous mechanisms, many of which are not understood in quantitative detail. An important component of the overall process is that the buoyancy of the bubble compounds with that of the liquid to give rise to a much-enhanced natural convection. In this article, we focus specifically on this enhancement and present a numerical study of the resulting two-phase Rayleigh–Bénard convection process in a cylindrical cell with a diameter equal to its height. We make no attempt to model other aspects of the boiling process such as bubble nucleation and detachment. The cell base and top are held at temperatures above and below the boiling point of the liquid, respectively. By keeping this difference constant, we study the effect of the liquid superheat in a Rayleigh number range that, in the absence of boiling, would be between 2 × 106 and 5 × 109. We find a considerable enhancement of the heat transfer and study its dependence on the number of bubbles, the degree of superheat of the hot cell bottom, and the Rayleigh number. The increased buoyancy provided by the bubbles leads to more energetic hot plumes detaching from the cell bottom, and the strength of the circulation in the cell is significantly increased. Our results are in general agreement with recent experiments on boiling Rayleigh–Bénard convection.
dc.identifier.citationCopyright 2013 Proceedings of the National Academy of Sciences. Recommended citation: Lakkaraju, Rajaram, Richard JAM Stevens, Paolo Oresta, Roberto Verzicco, Detlef Lohse, and Andrea Prosperetti. "Heat transport in bubbling turbulent convection." Proceedings of the National Academy of Sciences 110, no. 23 (2013): 9237-9242. DOI: 10.1073/pnas.1217546110 URL: https://www.pnas.org/content/110/23/9237.short Reproduced in accordance with the original publisher’s licensing terms and with permission from the author(s).
dc.publisherProceedings of the National Academy of Sciences
dc.subjecttwo-phase convection
dc.subjectlatent heat
dc.subjectboundary layers
dc.subjectpoint bubble model
dc.titleHeat transport in bubbling turbulent convection


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