Estimating turbulence kinetic energy dissipation rates in numerically simulated 
stratocumulus cloud-top and convective boundary layer flow: Evaluation of 
different methods.

Wacławczyk, M.; Akinlabi, E.O.; Mellado, Juan-Pedro; Malinowski, S.P.

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Estimating turbulence kinetic energy dissipation rates in numerically simulated stratocumulus cloud-top and convective boundary layer flow: Evaluation of different methods.

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Mellado, Juan-Pedro
The Atmosphere in the Earth System, MPI for Meteorology, Max Planck Society;

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Wacławczyk, M., Akinlabi, E., Mellado, J.-P., & Malinowski, S. (2019). Estimating turbulence kinetic energy dissipation rates in numerically simulated stratocumulus cloud-top and convective boundary layer flow: Evaluation of different methods. In Proceedings of 11th International Symposium on Turbulence and Shear Flow Phenomena (TSFP11), Southampton.

Zitierlink: https://hdl.handle.net/21.11116/0000-0004-F52F-4

Zusammenfassung

We perform analysis of direct numerical simulation (DNS) data of two flow cases: stratocumulus cloud-top (SCT) and convective boundary layer (CBL). We test different methods for turbulence kinetic energy dissipation rate (EDR) retrieval. Among others we investigate performance of a new, iterative method, proposed recently in Wacławczyk et al. (2017), where an analytical model for energy spectra in the dissipative range is needed. We argue, the new method has some advantages over the standard spectral retrieval techniques. To apply it, only the information on the signals’ cut-off wavelength is needed and it is not necessary to define the fitting range in the inertial part of the spectrum. With this, the new method could be a basis of a general algorithm for EDR retrieval, applicable to a wide range of different atmospheric data (e.g. from commercial aircrafts). Moreover, we investigate how the presence of anisotropy due to shear, buoyancy and external intermittency in the flow affects the EDR retrieval based on the classical K41 for isotropic turbulence (Kolmogorov, 1941). © 2019 International Symposium on Turbulence and Shear Flow Phenomena, TSFP. All rights reserved.