DNS STUDY OF DEPENDENCE OF BULK CONSUMPTION VELOCITY ON TURBULENCE AND MIXTURE CHARACTERISTICS

Yu, Rixin; Lipatnikov, Andrei N.

DNS STUDY OF DEPENDENCE OF BULK CONSUMPTION VELOCITY ON TURBULENCE AND MIXTURE CHARACTERISTICS

Mark

Yu, Rixin ^LU and Lipatnikov, Andrei N. (2017) Tenth mediterranean Combustion Symposium

Abstract: A 3D Direct Numerical Simulation (DNS) study of propagation of a single-reaction wave in statistically stationary, homogeneous, isotropic, and constant-density turbulence was performed in order to evaluate both developing U_T^t and fully developed U_T^s bulk turbulent consumption velocities by independently varying a ratio 0.5≤u'⁄S_L ≤90 of the rms turbulent velocity to the laminar wave speed, a ratio 0.39≤L_11⁄δ_F ≤12.5 of integral turbulent length scale to the laminar wave thickness, the Damköhler number 0.01≤Da=(L_11 S_L)⁄((u^' δ_F ) )≤24.7, the Karlovitz number 0.36≤Ka=δ_F⁄((S_L τ_η ) )≤587, or the Péclet number 1≤Pe=(u'L_11)⁄((S_L δ_F ) )≤707. Here, τ_η is the Kolmogorov time scale. The obtained DNS data show that, at sufficiently low... (More); A 3D Direct Numerical Simulation (DNS) study of propagation of a single-reaction wave in statistically stationary, homogeneous, isotropic, and constant-density turbulence was performed in order to evaluate both developing U_T^t and fully developed U_T^s bulk turbulent consumption velocities by independently varying a ratio 0.5≤u'⁄S_L ≤90 of the rms turbulent velocity to the laminar wave speed, a ratio 0.39≤L_11⁄δ_F ≤12.5 of integral turbulent length scale to the laminar wave thickness, the Damköhler number 0.01≤Da=(L_11 S_L)⁄((u^' δ_F ) )≤24.7, the Karlovitz number 0.36≤Ka=δ_F⁄((S_L τ_η ) )≤587, or the Péclet number 1≤Pe=(u'L_11)⁄((S_L δ_F ) )≤707. Here, τ_η is the Kolmogorov time scale. The obtained DNS data show that, at sufficiently low Da, the fully developed ratio of (U_T^s)⁄u' or (U_T^s)⁄S_L is mainly controlled by Da or Pe, respectively, and scales as √Da or √Pe, respectively, in line with the classical hypothesis by Damköhler. However, such a scaling should not be extrapolated to high Da. The higher Da (or 〖Ka〗^(-1)), the less pronounced dependence of (U_T^s)⁄u' on a ratio of L_11⁄δ_F . This trend could explain significant scatter of scaling exponents q obtained by fitting various experimental databases with U_T∝〖u'〗^b S_L^(1-b) (L_11⁄δ_F )^q. Moreover, due to the influence of turbulent wave development on the consumption velocity, scaling laws for developing U_T^t and fully developed U_T^s can be substantially different. Furthermore, the aforementioned scaling exponents b and, especially, q depend on the wave-development time and on a method used to evaluate the developing U_T^t. Such effects can contribute to significant scatter of expressions for U_T or turbulent flame speed S_T as a function of {u^',S_L,L_11,δ_F }, obtained by parameterizing various experimental databases. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/31865398-c357-493a-9e7c-4264d3ecec97

author

Yu, Rixin ^LU and Lipatnikov, Andrei N.

organization

Fluid Mechanics

publishing date

2017

type

Contribution to conference

publication status

published

subject

Energy Engineering

pages

12 pages

conference name

Tenth mediterranean Combustion Symposium

conference location

Napoli, Italy

conference dates

2017-09-17 - 2017-09-21

language

English

LU publication?

yes

id

31865398-c357-493a-9e7c-4264d3ecec97

alternative location

http://ircserver2.irc.cnr.it/wordp/wp-content/uploads/2017/09/TC4_Yu.pdf

date added to LUP

2017-10-04 18:26:48

date last changed

2018-11-21 21:34:59

@misc{31865398-c357-493a-9e7c-4264d3ecec97,
  abstract     = {{A 3D Direct Numerical Simulation (DNS) study of propagation of a single-reaction wave in statistically stationary, homogeneous, isotropic, and constant-density turbulence was performed in order to evaluate both developing U_T^t and fully developed U_T^s bulk turbulent consumption velocities by independently varying a ratio 0.5≤u'⁄S_L ≤90 of the rms turbulent velocity to the laminar wave speed, a ratio 0.39≤L_11⁄δ_F ≤12.5 of integral turbulent length scale to the laminar wave thickness, the Damköhler number 0.01≤Da=(L_11 S_L)⁄((u^' δ_F ) )≤24.7, the Karlovitz number 0.36≤Ka=δ_F⁄((S_L τ_η ) )≤587, or the Péclet number 1≤Pe=(u'L_11)⁄((S_L δ_F ) )≤707. Here, τ_η is the Kolmogorov time scale. The obtained DNS data show that, at sufficiently low Da, the fully developed ratio of (U_T^s)⁄u' or (U_T^s)⁄S_L  is mainly controlled by Da or Pe, respectively, and scales as √Da or √Pe, respectively, in line with the classical hypothesis by Damköhler. However, such a scaling should not be extrapolated to high Da. The higher Da (or 〖Ka〗^(-1)), the less pronounced dependence of (U_T^s)⁄u' on a ratio of L_11⁄δ_F . This trend could explain significant scatter of scaling exponents q obtained by fitting various experimental databases with U_T∝〖u'〗^b S_L^(1-b) (L_11⁄δ_F )^q. Moreover, due to the influence of turbulent wave development on the consumption velocity, scaling laws for developing U_T^t and fully developed U_T^s can be substantially different. Furthermore, the aforementioned scaling exponents b and, especially, q depend on the wave-development time and on a method used to evaluate the developing U_T^t. Such effects can contribute to significant scatter of expressions for U_T or turbulent flame speed S_T as a function of {u^',S_L,L_11,δ_F }, obtained by parameterizing various experimental databases.}},
  author       = {{Yu, Rixin and Lipatnikov, Andrei N.}},
  language     = {{eng}},
  title        = {{DNS STUDY OF DEPENDENCE OF BULK CONSUMPTION VELOCITY ON TURBULENCE AND MIXTURE CHARACTERISTICS}},
  url          = {{http://ircserver2.irc.cnr.it/wordp/wp-content/uploads/2017/09/TC4_Yu.pdf}},
  year         = {{2017}},
}

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DNS STUDY OF DEPENDENCE OF BULK CONSUMPTION VELOCITY ON TURBULENCE AND MIXTURE CHARACTERISTICS