Homogeneous turbulence in a random-jet-stirred tank

We report an investigation into random-jet-stirred homogeneous turbulence generated in a vertical octagonal prism shaped tank where there are jet arrays on four of the eight vertical faces. We show that the turbulence is homogeneous at all scales in the central region of the tank that spans multiple integral scales in all directions. The jet forcing from four sides in the horizontal direction guarantees isotropy in horizontal planes but leads to more energy in the horizontal fluctuations compared with the vertical fluctuations. This anisotropy between the horizontal and vertical fluctuations decreases at smaller scales, so that the inertial and dissipation range statistics show isotropic behaviour. Using four jet arrays allows us to achieve higher turbulence intensity and Reynolds number with a shorter jet merging distance compared to two facing arrays. We show that we are able to vary the turbulence scales and Reynolds number by adding attachments to the exits of each jet and changing the parameters of the algorithm that drives random-jet stirring. By linking how the flow from each jet influences the random-jet-stirred turbulence, we provide recommendations on how to select the parameters of the jet driving algorithm.