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A rapid-response 2-D drag anemometer for atmospheric turbulence measurements

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Abstract

A rapid response drag anemometer for measuring streamwise and lateral components of horizontal windspeed is described. Theory of operation, design and calibration are discussed with emphasis on the electronic preconditioning of signals and problems associated with using a mechanically resonant system as a sensor. Field comparisons showed half-hourly means and standard deviations of the streamwise component to be within 8% and 5% of respective values obtained from a 3-dimensional sonic anemometer. The lateral component from the drag anemometer was significantly more noisy than that from the 3-D sonic due to induced oscillations arising from vortex shedding. After mechanical and electronic filtering, half-hourly standard deviation comparisons agreed to within 6% for this component. Friction velocities obtained from the drag anemometer in combination with a 1-D sonic, agreed with measurements from the 3-D sonic anemometer to within 4% over a measured range of 0.05 to 1.2 m s-1

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References

  • Anderson, D. E. and Verma, S. R.: 1985, ‘Turbulent Spectra of CO2, Water Vapour, Temperature and Wind Velocity Fluctuations over a Crop Surface’, Boundary-Layer Meteorol. 33 pp, 1–14.

    Google Scholar 

  • Bird, R. B., Stewart W. E., and Lightfoot E. N.: 1960, Transport Phenomena, John Wiley and Sons, Inc, 780 pp.

  • Den Hartog J. P.: 1949, Strength of Materials, Dover Publications, Inc, 323 pp.

  • Hoerner, S. F.: 1958, Fluid-Dynamic Drag, Published by the Author, 402 pp.

  • Hopley, C. E. and Tunstall, M. J.: 1971, ‘A Fast Response Anemometer for Measuring the Turbulence Characteristics of the Natural Wind’, J. Phys. E: Scientific Instruments. 4, 489–494.

    Google Scholar 

  • Kaimal, J. C.: 1979, ‘Sonic Anemometer Measurement of Atmospheric Turbulence’, Proc. Dynamic Flow Conf., 1978, PO Box 121, DK 2740 Skovlunde, Denmark, pp. 551–565.

  • Kirwan, Jr., A. D., McNally, G., and Mehr, E.: 1974, ‘Response Characteristics of a Three-Dimensional Thrust Anemometer’, Boundary-Layer Meteorol. 8, 365–381.

    Google Scholar 

  • McAneney, K. J., Bailie, A., and Sappe, G.: 1988, ‘Turbulence Measurements During Mistral Winds with a 1-Dimensional Sonic Anemometer’, Boundary-Layer Meteorol. 42: 153–166.

    Google Scholar 

  • McAneney, K. J., Salinger, M. J., Porteus, A. S., and Barber, R. F.: 1990, ‘Modification of an Orchard Climate with Increasing Shelter-Belt Height’, Agric. and Forest Meteorol. 49, 177–189.

    Google Scholar 

  • McAneney, K. J. and Judd, M. J.: 1991, ‘Multiple Windbreaks: An Aeolian Ensemble’, Boundary-Layer Meteorol. 54, 129–146.

    Google Scholar 

  • Larsen, S. E. and Busch, N. E.: 1974, ‘Hot-wire Measurements in the Atmosphere. Part 1: Cibration and Response Characteristics’, pp. 15–34. Disa Information Series, 16, 15–34.

    Google Scholar 

  • Moros, A.: 1986, ‘Drag Anemometry for Measuring Velocities in Electromagnetically Driven Flows’, J. Phys. E: Sci. Instrum. 19, 1050–1054.

    Google Scholar 

  • Panofsky, H. A., Larko, D., Lipschutz, R., Stone, G., Bradley, E. F., Bowen, A. J. and Hojstrup, J.: 1982, ‘Spectra of Velocity Components over Complex Terrain’, Quart. J.R. Meteorol. Soc. 108, 215–230.

    Google Scholar 

  • Redford, T. G., Verma, S. B., and Rosenburg, N. J.: 1981, ‘Drag Anemometer Measurements of Turbulence over a Vegetated Surface’, J. Applied Meteorol. 20, 1222–1230.

    Google Scholar 

  • Rosenbrock, H. H. and Tagg, J. R.: 1950, ‘Wind and Gust-Measuring Instruments Developed for a Wind-Power Survey’, Proc. Inst. Elect. Engrs 98(II) 438–437.

    Google Scholar 

  • Smith, S. D.: 1980, ‘Evaluation of the Mark 8 Thrust Anemometer-Thermometer for Measurement of Boundary-Layer Turbulence’, Boundary-Layer Meteorol. 19, 273–292.

    Google Scholar 

  • Smith, S. D. and Chandler, P. C. P.: 1987, ‘Spectra and Gust Factors for Gale Force Marine Winds’, Boundary-Layer Meteorol. 40, 397–406.

    Google Scholar 

  • Tanner, B. D., Tanner, M. S., Dugas, W. A., Campbell, E. C., and Bland, B. L.: 1985, ‘Evaluation of an Operational Eddy Correlation System for Evapotranspiration Measurements’, pp. 87–99, in Proceedings of National Conference on Advances in Evapotranspiration, Chicago, December 16–17, 1985, American Society of Agricultural Engineers.

    Google Scholar 

  • Technical Note TN-505.: 1983, ‘Strain Gage Selection. Criteria, Procedures, Recommendations’, Measurements Group, Inc. Raleigh, North Carolina 27611, USA.

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Authors and Affiliations

  1. Ministry of Agriculture and Fisheries, Kerikeri Horticultural Research Station, P.O. Box 23, Kerikeri, New Zealand

    A. E. Green, M. J. Judd, J. K. McAneney, M. S. Astill & P. T. Prendergast

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  1. A. E. Green
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  2. M. J. Judd
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  3. J. K. McAneney
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  4. M. S. Astill
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  5. P. T. Prendergast
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Green, A.E., Judd, M.J., McAneney, J.K. et al. A rapid-response 2-D drag anemometer for atmospheric turbulence measurements. Boundary-Layer Meteorol 57, 1–15 (1991). https://doi.org/10.1007/BF00119711

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  • DOI: https://doi.org/10.1007/BF00119711

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