Transient growth in Poiseuille-Rayleigh-Bénard flows of binary fluids with Soret effect

doi:10.1007/s10483-016-2121-6

Applied Mathematics and Mechanics (English Edition) ›› 2016, Vol. 37 ›› Issue (9): 1203-1218.doi: https://doi.org/10.1007/s10483-016-2121-6

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Transient growth in Poiseuille-Rayleigh-Bénard flows of binary fluids with Soret effect

Jun HU¹, D. HENRY², H. BENHADID², Xieyuan YIN³

1. Institute of Applied Physics and Computational Mathematics, Beijing 100088, China;
2. Laboratoire de Mécanique des Fluides et d'Acoustique, CNRS/Universit éde Lyon, Ecole Centrale de Lyon/Université Lyon 1/INSA de Lyon, ECL, 36 avenue Guy de Collongue, 69134 Ecully Cedex, France;
3. Department of Modern Mechanics, University of Science and Technology of China, Hefei 230027, China

Received:2015-08-27 Revised:2016-05-07 Online:2016-09-01 Published:2016-09-01
Contact: Jun HU E-mail:hujun@iapcm.ac.cn
Supported by:
Project supported by the National Natural Science Foundation of China (Nos. 11172049 and 11472060)

Abstract

Abstract:

The transient growth due to non-normality is investigated for the PoiseuilleRayleigh-Bénard problem of binary fluids with the Soret effect. For negative separation factors such as ψ=-0.1, it is found that a large transient growth can be obtained by the non-normal interaction of the two least-stable-modes, i.e., the upstream and downstream modes, which determine the linear critical boundary curves for small Reynolds numbers. The transient growth is so strong that the optimal energy amplification factor G(t) is up to 102~103. While for positive separation factors such as ψ=0.1, the transient growth is weak with the order O(1) of the amplification factor, which can even be computed by the least-stable-mode. However, for both cases, the least-stable-mode can govern the long-term behavior of the amplification factor for large time. The results also show that large Reynolds numbers have stabilization effects for the maximum amplification within moderate wave number regions. Meanwhile, much small negative or large positive separation factors and large Rayleigh numbers can enlarge the maximum transient growth of the pure streamwise disturbance with the wavenumber α=3.14. Moreover, the initial and evolutionary two-dimensional spatial patterns of the large transient growth for the pure streamwise disturbance are exhibited with a plot of the velocity vector, spanwise vorticity, temperature, and concentration field. The initial three-layer cell vorticity structure is revealed. When the amplification factor reaches the maximum Gmax, it develops into one cell structure with large amplification for the vorticity strength.

Key words: nard flow, transient growth, Poiseuille-Rayleigh-Bé, binary fluid, Soret effect

2010 MSC Number:

76E06
76R05

Jun HU, D. HENRY, H. BENHADID, Xieyuan YIN. Transient growth in Poiseuille-Rayleigh-Bénard flows of binary fluids with Soret effect. Applied Mathematics and Mechanics (English Edition), 2016, 37(9): 1203-1218.

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Transient growth in Poiseuille-Rayleigh-Bénard flows of binary fluids with Soret effect

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