Comparison of large-eddy simulation data with spatially averaged measurements obtained by acoustic tomography: Presuppositions and first results

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Sonja Weinbrecht
  • Siegfried Raasch
  • Astrid Ziemann
  • Klaus Arnold
  • Armin Raabe

Research Organisations

External Research Organisations

  • Leipzig University
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Details

Original languageEnglish
Pages (from-to)441-465
Number of pages25
JournalBoundary-Layer Meteorology
Volume111
Issue number3
Publication statusPublished - Jun 2004

Abstract

An attempt is made to compare results of large-eddy simulation (LES) in a convective boundary layer using the model PALM with experimental data obtained from acoustic travel time tomography. This method provides two-dimensional data arrays, which are considered as more suitable for LES-validation than classical local or line-integrated measurements, because the tomographic data are area- or volume-averaged. For a quantitative comparison with experimental data in general, some prerequisites have to be considered: First of all, the initial and boundary conditions of the LES model have to be provided correctly by the experiment. Considering measurement errors, a sensitivity study was performed to investigate the influence of inaccurate initial and boundary conditions on the simulation results. This showed that for determining some boundary conditions, such as the surface temperature and the roughness length, high measurement accuracies are necessary, which are difficult to reach or which at least require considerable extra measurement efforts. The initial and boundary conditions provided by the Lindenberg experiment in 1999 turned out to be of insufficient accuracy to allow quantitative comparisons. However, a qualitative comparison was performed instead to investigate if the acoustic tomography method is a proper method for comparisons with LES models in general. It showed a good qualitative agreement with some quantitative differences. These differences can partly be explained by the sensitivity of the LES to initial and boundary conditions and by the limitations of the acoustic tomography.

Keywords

    Acoustic tomography, Boundary-layer observations, Large-eddy simulation, Sensitivity study

ASJC Scopus subject areas

Cite this

Comparison of large-eddy simulation data with spatially averaged measurements obtained by acoustic tomography: Presuppositions and first results. / Weinbrecht, Sonja; Raasch, Siegfried; Ziemann, Astrid et al.
In: Boundary-Layer Meteorology, Vol. 111, No. 3, 06.2004, p. 441-465.

Research output: Contribution to journalArticleResearchpeer review

Weinbrecht S, Raasch S, Ziemann A, Arnold K, Raabe A. Comparison of large-eddy simulation data with spatially averaged measurements obtained by acoustic tomography: Presuppositions and first results. Boundary-Layer Meteorology. 2004 Jun;111(3):441-465. doi: 10.1023/B:BOUN.0000016501.92974.a5
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title = "Comparison of large-eddy simulation data with spatially averaged measurements obtained by acoustic tomography: Presuppositions and first results",
abstract = "An attempt is made to compare results of large-eddy simulation (LES) in a convective boundary layer using the model PALM with experimental data obtained from acoustic travel time tomography. This method provides two-dimensional data arrays, which are considered as more suitable for LES-validation than classical local or line-integrated measurements, because the tomographic data are area- or volume-averaged. For a quantitative comparison with experimental data in general, some prerequisites have to be considered: First of all, the initial and boundary conditions of the LES model have to be provided correctly by the experiment. Considering measurement errors, a sensitivity study was performed to investigate the influence of inaccurate initial and boundary conditions on the simulation results. This showed that for determining some boundary conditions, such as the surface temperature and the roughness length, high measurement accuracies are necessary, which are difficult to reach or which at least require considerable extra measurement efforts. The initial and boundary conditions provided by the Lindenberg experiment in 1999 turned out to be of insufficient accuracy to allow quantitative comparisons. However, a qualitative comparison was performed instead to investigate if the acoustic tomography method is a proper method for comparisons with LES models in general. It showed a good qualitative agreement with some quantitative differences. These differences can partly be explained by the sensitivity of the LES to initial and boundary conditions and by the limitations of the acoustic tomography.",
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AU - Weinbrecht, Sonja

AU - Raasch, Siegfried

AU - Ziemann, Astrid

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AU - Raabe, Armin

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