Heat transport modification by finitely extensible polymers in laminar boundary layer flow

Heat transport modification by finitely extensible polymers in laminar boundary layer flow

We study how heat transport is affected by finitely extensible polymers in a laminar boundary layer flow within the framework of the Prandtl–Blasius–Pohlhausen theory. The polymers are described by the finitely extensible nonlinear elastic-Peterlin model with a parameter $b^{2}$ , which is the ratio...

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Veröffentlicht in:Journal of fluid mechanics 2016-02, Vol.788, p.337-357
Hauptverfasser: Benzi, Roberto, Ching, Emily S. C., Yu, Wilson C. K., Wang, Yiqu
Format: Artikel
Sprache:eng
Schlagworte:
Boundary layer
Boundary layers
Fluid mechanics
Heat transfer
Heat transport
Polymers
Viscosity
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Zusammenfassung:We study how heat transport is affected by finitely extensible polymers in a laminar boundary layer flow within the framework of the Prandtl–Blasius–Pohlhausen theory. The polymers are described by the finitely extensible nonlinear elastic-Peterlin model with a parameter $b^{2}$ , which is the ratio of the maximum to the equilibrium value of the trace of the polymer conformation tensor. For very large $b^{2}$ , heat transport is reduced. When $b^{2}$ is small, heat transport is enhanced. We investigate the transition from heat reduction to heat enhancement as a function of the polymer relaxation time and concentration, and show that the transition can be explained in terms of the functional shape of the space-dependent effective viscosity due to the polymers.
ISSN:0022-1120
1469-7645
DOI:10.1017/jfm.2015.714