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- Title
The Effect of a New Calibration Procedure on the Measurement Accuracy of Scintec's Displaced-Beam Laser Scintillometer.
- Authors
Van Kesteren, B.; Beyrich, F.; Hartogensis, O.; Kroonenberg, A.
- Abstract
We describe a new calibration procedure included in the production process of Scintec's displaced-beam laser scintillometers (SLS-20/40) and its effect on their measurement accuracy. The calibration procedure determines the factual displacement distances of the laser beams at the receiver and transmitter units, instead of assuming a prescribed displacement distance of 2.70 mm. For this study, four scintillometers operated by Wageningen University and the German Meteorological Service were calibrated by Scintec and their data re-analyzed. The results show that significant discrepancies may exist between the factual and the prescribed displacement distances. Generally, the factual displacement is about 0.1 mm smaller than 2.70 mm, but extremes varied between 0.04 and 0.24 mm. Correspondingly, using non-calibrated scintillometers may result in biases as large as 20 % in the estimates of the inner-scale length, $$l_{0}$$ , the structure parameter of the refractive index, $$C_{n_{_2}}$$ , and the friction velocity, $$u_{*}$$ . The bias in the sensible heat flux was negligible, because biases in $$C_{n_{_2}}$$ and $$u_{*}$$ cancel. Hence, the discrepancies explain much of the long observed underestimations of $$u_{*}$$ determined by these scintillometers. Furthermore, the calibration improves the mutual agreement between the scintillometers for $$l_{0}$$ , but especially for $$C_{n_{_2}}$$ . Finally, it is noted that the measurement specifications of the scintillometer do not expire and hence the results of the calibration can be applied retroactively.
- Subjects
SCINTILLATION counters; LASER beams; TRANSMITTERS (Communication); WAGENINGEN Agricultural University; METEOROLOGICAL services; MONIN-Obukhov length; DATA analysis
- Publication
Boundary-Layer Meteorology, 2014, Vol 151, Issue 2, p257
- ISSN
0006-8314
- Publication type
Article
- DOI
10.1007/s10546-013-9891-1