2019
DOI: 10.1016/j.jcp.2019.05.036
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A single stable scheme for steady conjugate heat transfer problems

Abstract: A B S T R A C TThe goal of this paper is to propose a single interface treatment, based on the Dirichlet-Robin interface condition to deal with all steady CHT scenarios. These scenarios depend on the so-called numerical Biot number that controls the stability process and the optimal coefficient that ensures, in theory, unconditional stability. It is shown that this coefficient is closely related to fundamental thermal quantities. For very large thermal fluid-solid interactions, the Dirichlet-Robin condition ma… Show more

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Cited by 10 publications
(5 citation statements)
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References 32 publications
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“…As a consequence, to support the design of efficient impingement cooling within the compressor development design-cycle, a procedure to compute the time-average effect of the cooling on the rotating disk would be sufficient. Numerical algorithms for steady state CHT coupling can be found, e.g., in Reference [17]. This algorithm uses a weak coupling of the interface heat fluxes, i.e., the interface heat fluxes are only balanced at steady state and the solution is then advanced.…”
Section: Conjugate Heat Transfer (Cht)mentioning
confidence: 99%
“…As a consequence, to support the design of efficient impingement cooling within the compressor development design-cycle, a procedure to compute the time-average effect of the cooling on the rotating disk would be sufficient. Numerical algorithms for steady state CHT coupling can be found, e.g., in Reference [17]. This algorithm uses a weak coupling of the interface heat fluxes, i.e., the interface heat fluxes are only balanced at steady state and the solution is then advanced.…”
Section: Conjugate Heat Transfer (Cht)mentioning
confidence: 99%
“…Second, if continuity of flux and temperature is mathematically ensured at convergence, as just mentioned, it is far more complex in a discrete formulation and multiple solutions depending on the coupling coefficients can be obtained. This issue was largely discussed in [37] without radiation. With radiation, we have decided to strengthen the continuity, at every step of the process by imposing a single temperature value at the interface…”
Section: The General Robin Interface Condition On the Fluid Side Becomesmentioning
confidence: 99%
“…in (9) which corresponds to a "perfect" conduction in the solid. When the solid conduction departs significantly from that assumption, in a solid ceramic material for instance, effective changes can be made to extend the scope of the D-R conditions so as to continue to retain this single interface treatment [37] [38].…”
Section: Dirichlet-robin Interface Treatment With Radiationmentioning
confidence: 99%
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“…Research about fluid structure interaction and further multiphysics coupling is done since many years (Felippa, Park, and Farhat 2001). Also CHT and the stability of respective numerical approaches is deeply examined (Errera et al 2019;Radenac, Gressier, and Millan 2014) and published. Application for aero engines can be found in Ganine et al 2012;Schindler 2022;Schindler, Brack, and von Wolfersdorf 2019;Sun et al 2011.…”
Section: Introductionmentioning
confidence: 99%