On two distinct Reynolds number regimes of a turbulent square jet  

作　　者：Minyi Xu Jianpeng Zhang Pengfei Li Jianchun Mi 

机构地区：[1]Marine Engineering College,Dalian Maritime University [2]State Key Laboratory of Turbulence & Complex Systems,College of Engineering,Peking University

出　　处：《Theoretical & Applied Mechanics Letters》2015年第3期117-120,共4页力学快报（英文版）

基　　金：supported by the Fundamental Research Funds for the Central Universities,China(3132015027);the general science research project of the education department of Liaoning Province,China(L2013198);the Natural Science Foundation of Liaoning Province,China(2014025012)

摘　　要：The effects of Reynolds number on both large-scale and small-scale turbulence properties are investigated in a square jet issuing from a square pipe. The detailed velocity fields were measured at five different exit Reynolds numbers of 8 × 10^3 〈 Re 〈 5 × 10^4. It is found that both large-scale properties （e.g,, rates of mean velocity decay and spread） and small-scale properties （e.g., the dimensionless dissipation rate constant A = εL/（u^2）^3/2） are dependent on Re for Re ≤ 3 ×10^4 or Reλ ≤ 190, but virtually become Re-independent with increasing Re or Reλ. In addition, for Reλ 〉 190, the value ofA = εL/（u^2）^3/2 in the present square jet converges to 0.5, which is consistent with the observation in direct numerical simulations of box turbulence, but lower than that in circular jet, plate wake flows, and grid turbulence. The discrepancies in critical Reynolds number and A = εL/（u^2）^3/2 among different turbulent flows most likely result from the flow type and initial conditions.The effects of Reynolds number on both large-scale and small-scale turbulence properties are investigated in a square jet issuing from a square pipe. The detailed velocity fields were measured at five different exit Reynolds numbers of 8 × 10^3 〈 Re 〈 5 × 10^4. It is found that both large-scale properties （e.g,, rates of mean velocity decay and spread） and small-scale properties （e.g., the dimensionless dissipation rate constant A = εL/（u^2）^3/2） are dependent on Re for Re ≤ 3 ×10^4 or Reλ ≤ 190, but virtually become Re-independent with increasing Re or Reλ. In addition, for Reλ 〉 190, the value ofA = εL/（u^2）^3/2 in the present square jet converges to 0.5, which is consistent with the observation in direct numerical simulations of box turbulence, but lower than that in circular jet, plate wake flows, and grid turbulence. The discrepancies in critical Reynolds number and A = εL/（u^2）^3/2 among different turbulent flows most likely result from the flow type and initial conditions.

关 键 词：Square jet Hot-wire Reynolds number Small-scale turbulence Mean energy dissipation rate 

分 类 号：O357.5[理学—流体力学]