中文版 | English
题名

Vibrational relaxation in compressible isotropic turbulence with thermal nonequilibrium

作者
通讯作者Wang, Jianchun
发表日期
2020-04-21
DOI
发表期刊
ISSN
2469-990X
卷号5期号:4
摘要

As pioneered by Donzis and Maqui [J. Fluid Mech. 797, 181 (2016)] and Khurshid and Donzis [Phys. Fluids 31, 015103 (2019)], the compressible isotropic turbulence in thermal nonequilibrium is drawing attention in the fluid dynamics community. In the present study, the vibrational rate and the dissipation or production of vibrational energy fluctuation of compressible isotropic turbulence with solenoidal forcing in vibrational nonequilibrium are investigated using numerical simulations. The turbulent Mach number (M-t) is set to be 0.44 and 1.09, and the Taylor Reynolds number (Re-lambda) equals 98.58 approximately. The focus is on the effect of the normalized vibrational relaxation time (K-tau) and characteristic temperature (theta(v)) on statistical features of the vibrational rate and the dissipation or production components of vibrational energy fluctuation. When K-tau is small (less than or similar to 1.0), the average of normalized vibrational rate conditioned on the normalized dilatation is positive in the compression region and negative in the expansion region, enhanced with increase of compression and expansion level, respectively. It indicates that, on average, the energy transfers from translational-rotational to vibrational modes in the compression region and in the inverse direction in the expansion region. The conditional average of the normalized vibrational rate reduces with increase of K-tau, and is insensitive to theta(v). The joint probability density functions (PDFs) and conditional PDFs of the normalized vibrational rate are also analyzed, to reveal the effect of compression and expansion motions on the internal energy exchange between the translational-rotational and vibrational modes. The dissipation or production of vibrational energy fluctuation can result from effects of dilatation, thermal diffusion, and vibrational relaxation. The dissipation component due to thermal diffusion always weakens the vibrational energy fluctuation in both compression and expansion regions for the weakly and highly compressible turbulence, but its effect is insignificant compared to the other two components. For the weakly compressible turbulence, the dissipation or production of vibrational energy fluctuation mainly comes from effects of dilatation and vibrational relaxation when K-tau is small (less than or similar to 1.0), and the vibrational relaxation component loses its significance with increasing of K-tau. For the highly compressible turbulence, both the dilatation and vibrational relaxation effects play an important role in the dissipation and production of vibrational energy fluctuation, and their effects are significantly different from that of the weakly compressible turbulence. The conditional average, joint PDFs, and conditional PDFs of each dissipation or production component are calculated and analyzed in detail to reveal their effects on the vibrational energy fluctuation in different compression and expansion regions. Furthermore, the bulk viscosity effect on the compression or expansion motion in flow field, the vibrational rate, and the dissipation or production components of vibrational energy fluctuation is discussed briefly.

相关链接[来源记录]
收录类别
SCI ; EI
语种
英语
学校署名
第一 ; 通讯
资助项目
Young Elite Scientist Sponsorship Program by CAST[2016QNRC001]
WOS研究方向
Physics
WOS类目
Physics, Fluids & Plasmas
WOS记录号
WOS:000527140000005
出版者
EI入藏号
20202308787189
EI主题词
Diffusion in liquids ; Energy transfer ; Turbulence ; Probability density function ; Relaxation processes ; Reynolds number
EI分类号
Fluid Flow, General:631.1 ; Probability Theory:922.1 ; Mechanics:931.1 ; Materials Science:951
来源库
Web of Science
引用统计
被引频次[WOS]:8
成果类型期刊论文
条目标识符http://kc.sustech.edu.cn/handle/2SGJ60CL/126837
专题工学院_力学与航空航天工程系
作者单位
1.Southern Univ Sci & Technol, Ctr Complex Flows & Soft Matter Res, Dept Mech & Aerosp Engn, Shenzhen Key Lab Complex Aerosp Flows, Shenzhen 518055, Peoples R China
2.Wuhan Univ, Sch Power & Mech Engn, Wuhan 430072, Peoples R China
3.Harbin Inst Technol Shenzhen, Inst Turbulence Noise Vibrat Interact & Cont, Shenzhen 518055, Peoples R China
4.Univ Paris Saclay, CNRS, LIMSI, Bat 507,Rue Belvedere,Campus Univ, F-91405 Orsay, France
5.Tech Univ Berlin, Inst Stromungsmechan & Tech Akust, Muller Breslau Str 8, D-10623 Berlin, Germany
6.Peking Univ, State Key Lab Turbulence & Complex Syst, Beijing 100871, Peoples R China
第一作者单位力学与航空航天工程系
通讯作者单位力学与航空航天工程系
第一作者的第一单位力学与航空航天工程系
推荐引用方式
GB/T 7714
Zheng, Qinmin,Wang, Jianchun,Noack, Bernd R.,et al. Vibrational relaxation in compressible isotropic turbulence with thermal nonequilibrium[J]. Physical Review Fluids,2020,5(4).
APA
Zheng, Qinmin,Wang, Jianchun,Noack, Bernd R.,Li, Hui,Wan, Minping,&Chen, Shiyi.(2020).Vibrational relaxation in compressible isotropic turbulence with thermal nonequilibrium.Physical Review Fluids,5(4).
MLA
Zheng, Qinmin,et al."Vibrational relaxation in compressible isotropic turbulence with thermal nonequilibrium".Physical Review Fluids 5.4(2020).
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