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Micromixing modelling of concentration fluctuations in inhomogeneous turbulence in the convective boundary layer

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Abstract

The micromixing technique, widely used in engineering calculations of mixing and chemical reaction, is extended to atmospheric boundary-layer flows. In particular, a model based on the interaction-by-exchange-with-the-conditional-mean (IECM) micromixing approach is formulated to calculate concentration fluctuation statistics for a line source and a point source in inhomogeneous and non-Gaussian turbulence in the convective boundary layer. The mixing time scale is parameterised as a linear function of time with the intercept value determined by the source size at small times. Good agreement with laboratory data for the intensity of concentration fluctuations is obtained with a value of 0.9 for the coefficient of the linear term in the time-scale parameterisation for a line source, and a value of 0.6 for a point source. Calculation of higher-order moments of the concentration field for a line source shows that non-Gaussian effects persist into the vertically well-mixed region. The cumulative distribution function predicted by the model for a point source agrees reasonably well with laboratory data, especially in the far field. In the limit of zero mixing time scale, the model reduces to a meandering plume model, thus enabling the concentration variance to be partitioned into meandering and relative components. The meandering component is shown to be more persistent for a point source than for a line source.

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Authors and Affiliations

  1. CSIRO Atmospheric Research, PMB 1, Aspendale, Victoria, 3195, Australia

    Ashok K. Luhar

  2. Department of Mechanical Engineering, Monash University, Clayton, Victoria, 3800, Australia

    Brian L. Sawford

Authors
  1. Ashok K. Luhar
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  2. Brian L. Sawford
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Correspondence to Ashok K. Luhar.

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Luhar, A.K., Sawford, B.L. Micromixing modelling of concentration fluctuations in inhomogeneous turbulence in the convective boundary layer. Boundary-Layer Meteorol 114, 1–30 (2005). https://doi.org/10.1007/s10546-004-1292-z

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  • DOI: https://doi.org/10.1007/s10546-004-1292-z

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