Saturation of the large aperture scintillometer

W. Kohsiek; W.M.L. Meijninger; H.A.R. Debruin; F. Beyrich

doi:10.1007/s10546-005-9031-7

Saturation of the large aperture scintillometer

W. Kohsiek, W.M.L. Meijninger, H.A.R. Debruin, F. Beyrich

Meteorology and Air Quality

Research output: Contribution to journal › Article › Academic › peer-review

45 Citations (Scopus)

Abstract

The saturation aspects of a large aperture (0.3 m) scintillometer operating over a 10-km path were investigated. Measurements were made over mainly forested, hilly terrain with typical maximum sensible heat fluxes of 300-400 W m(-2), and over flat terrain with mainly grass, and typical maximum heat fluxes of 100-150 W m(-2). Scintillometer-based fluxes were compared with eddy-correlation observations. Two different schemes for calculating the reduction of scintillation caused by saturation were applied: one based on the work of Hill and Clifford, the other based on Frehlich and Ochs. Without saturation correction, the scintillation fluxes were lower than the eddy-correlation fluxes; the saturation correction according to Frehlich and Ochs increased the scintillometer fluxes to an unrealistic level. Correcting the fluxes after the theory of the Hill and Clifford gave satisfying results.

Original language	English
Pages (from-to)	111-126
Journal	Boundary-Layer Meteorology
Volume	121
Issue number	1
DOIs	https://doi.org/10.1007/s10546-005-9031-7
Publication status	Published - 2006

Keywords

scintillometry
meteorological observations
saturation
atmospheric surface-layer
scintillation measurements
optical scintillometer
strong turbulence
inner-scale
spectrum
fluxes

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10.1007/s10546-005-9031-7

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title = "Saturation of the large aperture scintillometer",

abstract = "The saturation aspects of a large aperture (0.3 m) scintillometer operating over a 10-km path were investigated. Measurements were made over mainly forested, hilly terrain with typical maximum sensible heat fluxes of 300-400 W m(-2), and over flat terrain with mainly grass, and typical maximum heat fluxes of 100-150 W m(-2). Scintillometer-based fluxes were compared with eddy-correlation observations. Two different schemes for calculating the reduction of scintillation caused by saturation were applied: one based on the work of Hill and Clifford, the other based on Frehlich and Ochs. Without saturation correction, the scintillation fluxes were lower than the eddy-correlation fluxes; the saturation correction according to Frehlich and Ochs increased the scintillometer fluxes to an unrealistic level. Correcting the fluxes after the theory of the Hill and Clifford gave satisfying results.",

keywords = "scintillometrie, meteorologische waarnemingen, verzadiging, scintillometry, meteorological observations, saturation, atmospheric surface-layer, scintillation measurements, optical scintillometer, strong turbulence, inner-scale, spectrum, fluxes",

author = "W. Kohsiek and W.M.L. Meijninger and H.A.R. Debruin and F. Beyrich",

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T1 - Saturation of the large aperture scintillometer

AU - Kohsiek, W.

AU - Meijninger, W.M.L.

AU - Debruin, H.A.R.

AU - Beyrich, F.

N1 - ISI Document Delivery No.: 099FF Times Cited: 2 Cited Reference Count: 23

PY - 2006

Y1 - 2006

N2 - The saturation aspects of a large aperture (0.3 m) scintillometer operating over a 10-km path were investigated. Measurements were made over mainly forested, hilly terrain with typical maximum sensible heat fluxes of 300-400 W m(-2), and over flat terrain with mainly grass, and typical maximum heat fluxes of 100-150 W m(-2). Scintillometer-based fluxes were compared with eddy-correlation observations. Two different schemes for calculating the reduction of scintillation caused by saturation were applied: one based on the work of Hill and Clifford, the other based on Frehlich and Ochs. Without saturation correction, the scintillation fluxes were lower than the eddy-correlation fluxes; the saturation correction according to Frehlich and Ochs increased the scintillometer fluxes to an unrealistic level. Correcting the fluxes after the theory of the Hill and Clifford gave satisfying results.

AB - The saturation aspects of a large aperture (0.3 m) scintillometer operating over a 10-km path were investigated. Measurements were made over mainly forested, hilly terrain with typical maximum sensible heat fluxes of 300-400 W m(-2), and over flat terrain with mainly grass, and typical maximum heat fluxes of 100-150 W m(-2). Scintillometer-based fluxes were compared with eddy-correlation observations. Two different schemes for calculating the reduction of scintillation caused by saturation were applied: one based on the work of Hill and Clifford, the other based on Frehlich and Ochs. Without saturation correction, the scintillation fluxes were lower than the eddy-correlation fluxes; the saturation correction according to Frehlich and Ochs increased the scintillometer fluxes to an unrealistic level. Correcting the fluxes after the theory of the Hill and Clifford gave satisfying results.

KW - scintillometrie

KW - meteorologische waarnemingen

KW - verzadiging

KW - scintillometry

KW - meteorological observations

KW - saturation

KW - atmospheric surface-layer

KW - scintillation measurements

KW - optical scintillometer

KW - strong turbulence

KW - inner-scale

KW - spectrum

KW - fluxes

U2 - 10.1007/s10546-005-9031-7

DO - 10.1007/s10546-005-9031-7

M3 - Article

SN - 0006-8314

VL - 121

SP - 111

EP - 126

JO - Boundary-Layer Meteorology

JF - Boundary-Layer Meteorology

IS - 1

ER -

Saturation of the large aperture scintillometer

Abstract

Keywords

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