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Supplier: Campbell Scientific, Inc.
Description: The CSAT3 is a three-dimensional sonic anemometer. It measures wind speed and the speed of sound on three nonorthogonal axes. From these measurements, orthogonal wind speed and sonic temperature can be computed. The CSAT is used in eddy covariance applications to measure the
- Device Classification: Sensor Only
- Height: 16.69 inch
- Interface Options: Serial Interface, Other Computer Interface
- Mounting Options: Pole-mounted (Typically via clamps)
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Description: ISO 16622:2002 defines test methods of the performance of sonic anemometers/thermome ters which employ the inverse time measurement for velocity of sound along differently oriented paths. It is applicable to designs measuring two or three components of the wind vector within an
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Supplier: CSA Group
Description: ISO 16622:2002 defines test methods of the performance of sonic anemometers/thermome ters which employ the inverse time measurement for velocity of sound along differently oriented paths. It is applicable to designs measuring two or three components of the wind vector within an
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Supplier: ASTM International
Description: 1.1 This test method covers the determination of the dynamic performance of a sonic anemometer/thermomet er which employs the inverse time measurement technique for velocity or speed of sound, or both. Performance criteria include (a) acceptance angle, (b) acoustic pathlength, (c)
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Supplier: ASTM International
Description: 1.1 This test method covers the determination of the dynamic performance of a sonic anemometer/thermomet er which employs the inverse time measurement technique for velocity or speed of sound, or both. Performance criteria include: (a) acceptance angle, ( b) acoustic pathlength, (c)
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Supplier: ASTM International
Description: 1.1 This test method covers the determination of the dynamic performance of a sonic anemometer/thermomet er which employs the inverse time measurement technique for velocity or speed of sound, or both. Performance criteria include: (a) acceptance angle, (b) acoustic pathlength, (c)
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Supplier: ASTM International
Description: 1.1 This test method covers the determination of the dynamic performance of a sonic anemometer/thermomet er which employs the inverse time measurement technique for velocity or speed of sound, or both. Performance criteria include: (a) acceptance angle, (b) acoustic pathlength, (c)
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Supplier: RainWise, Inc.
Description: The PVmet™- 200US ultra sonic commercial model features all the same high quality sensors as our best selling PVmet™-200, upgraded with a precision Ultra Sonic anemometer. The Ultra Sonic anemometer offers a superior quality sensor with no moving parts greatly
- Device Classification: Sensor Only
- Interface Options: Serial Interface
- Measures Solar Radiation: Yes
- Measures Temperature: Yes
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Supplier: Campbell Scientific, Inc.
Description: The WindSonic4, manufactured by Gill Instruments Ltd., is a two-dimensional ultrasonic anemometer for measuring wind direction and speed. The WindSonic is an alternative to traditional mechanical cup and vane or propeller and vane anemometers. Unlike mechanical
- Device Classification: Sensor Only
- Height: 6.3 inch
- Interface Options: Other Computer Interface
- Mounting Options: Pole-mounted (Typically via clamps)
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Supplier: Campbell Scientific, Inc.
Description: The WindSonic1, manufactured by Gill Instruments Ltd., is a two-dimensional ultrasonic anemometer for measuring wind direction and speed. The WindSonic is an alternative to traditional mechanical cup and vane or propeller and vane anemometers. Unlike mechanical
- Device Classification: Sensor Only
- Height: 6.3 inch
- Interface Options: Serial Interface
- Mounting Options: Pole-mounted (Typically via clamps)
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Supplier: Accuris
Description: METEOROLOGY SONIC ANEMOMETERS/THERMOME TERS ACCEPTANCE TEST METHODS FOR MEAN WIND MEASUREMENTS
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Supplier: Accuris
Description: STANDARD TEST METHOD FOR DETERMINING THE PERFORMANCE OF A SONIC ANEMOMETER/THERMOMET ER
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Supplier: Accuris
Description: German Language - ENVIRONMENTAL METEOROLOGY METEOROLOGICAL MEASUREMENTS TURBULENCE MEASUREMENTS WITH SONIC ANEMOMETERS
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Supplier: Accuris
Description: French Language - METEOROLOGY - SONIC ANEMOMETERS/THERMOME TERS - ACCEPTANCE TEST METHODS FOR MEAN WIND MEASUREMENTS
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Supplier: RainWise, Inc.
Description: rate and chose the units of measurement that suit your application. Ensuring accuracy and reliability, WindSonic automatically transmits an anemometer status code with each output to indicate its operating status. Available in three options, providing a number of different digital and
- Computer Controllable: Yes
- Device Classification: Sensor System
- Interface Options: Serial Interface
- Mounting Options: Pole-mounted (Typically via clamps)
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Supplier: LI-COR Biosciences
Description: The LI-7500A is a high speed, high precision, non-dispersive infrared gas analyzer that accurately measures densities of carbon dioxide and water vapor in-situ. With the eddy covariance technique, these data are used in conjunction with sonic anemometer wind speed to determine the
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Supplier: Yankee Environmental Systems, Inc.
Description: , dew point, and pressure), a TSP-400 visible/NIR pyranometer (solar), and 2-D wind speed and direction (sonic or wind vane/anemometer). Optional sensors include TSI-880 Automated Total Sky Imagers, UVB-1 or UVA-1 UV pyranometers, TIR-550 IR radiometers, optical visibility and
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Eddy Covariance
Sonic Anemometer ...................................................
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Wind Energy Assessment Study for Nevada -- Tall Tower Deployment (Stone Cabin): 26 June 2005 - 31 December 2007
Sonic Anemometer Measurements of Turbulence Fluxes .............................................
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Micrometeorology
Cover illustration: Measuring system consisting on a sonic anemometer (CSAT3, Campbell Sci. Inc.) and an IR gas analyzer (LI-7500, LI-COR Inc.) for estimating the fluxes of sensible and latent heat and carbon dioxide using the eddy-covariance method as explained …
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Springer Handbook of Experimental Fluid Mechanics
sonic anemometer /thermometer SCR .
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Unsteady Aerodynamics Experiment Phase VI: Wind Tunnel Test Configurations and Available Data Campaigns
… and Centrifugal Force Corrections ....................................................................45 Dynamic Pressure................................................................................................................................46 Pressure Coefficients...........................................................................................................................47 Pressure Measurement Considerations................................................................................................47 Aerodynamic Force Coefficients.........................................................................................................51 Estimated Aerodynamic Rotor Loads .................................................................................................53 Flow Angles ........................................................................................................................................55 Yaw Error............................................................................................................................................57 Teeter Angle........................................................................................................................................57 Cone Angle..........................................................................................................................................57 Sonic Anemometer Wind Speed .........................................................................................................57 Rotation …
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Turbulence within and above real and artificial urban canopies
This paper compares sonic anemometer data obtained in an actual urban area during the Joint Urban 2003 (JU03) Field Experiment with those data obtained in a simulated urban area during the Mock Urban Setting Test (MUST).
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Comparing Pulsed Doppler LIDAR with SODAR and Direct Measurements for Wind Assessment
The level of accuracy to which the intercomparisons with the LIDAR and SODAR could be compared with the sonic anemometers is limited by the degree of local flow distortion as a result of the presence of the tower and the nature of …
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Reply to the Comment by Mauder on “How Well Can We Measure the Vertical Wind Speed? Implications for Fluxes of Energy and Mass”
Abstract In Kochendorfer et al. (Boundary-Layer Meteorol 145:383–398, 2012, hereafter K2012) the vertical wind speed (w) measured by a non-orthogonal three-dimensional sonic anemometer was shown to be underestimated by ≈12%.
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How Well Can We Measure the Vertical Wind Speed? Implications for Fluxes of Energy and Mass
Sonic anemometers are capable of measuring the wind speed in all three dimen- sions at high frequencies (10–50 Hz), and are relied upon to estimate eddy-covariance-based fluxes of mass and energy over a wide variety of surfaces and ecosystems.
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THE NEW YORK MIDTOWN DISPERSION STUDY (MID-05) METEOROLOGICAL DATA REPORT.
5 2.2.1 Sonic Anemometers .......................................................................................................