Using RM Young Sonic Anemometers in Eddy Covariance Systems

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This document describes how to use the RM Young 81000, 81000V, 81000RE, and 81000VRE ultrasonic anemometers in LI-COR eddy covariance systems. The topics covered are installing the anemometer at your site, connecting the anemometer to the SmartFlux 2 or 3 System, and configuring the software for the eddy covariance site.

Important: Be sure to read and understand the documentation provided with the sonic anemometer.

Table 1‑1. Power and data cables to connect an RM Young anemometer with the SmartFlux System.
Cable Type Length Part Number
Data and Power 5 m 7900-472-5
Data and Power 25 m 7900-472-25
Data and Power 50 m 7900-472-50

Installing the anemometer and analyzer

RM Young anemometers should be mounted to a horizontal cross-arm with the mounting kit (part number 7900-332).

Figure 1‑1. The RM Young mounting kit (part number 7900-332) includes a crossover fitting and riser bar. Tighten the band clamp to secure the anemometer.

Orientation, horizontal offsets, and vertical offset

Mount the anemometer with the north spar (the one opposite the junction box) facing magnetic north, then rotate it so one spar is oriented downwind from the prevailing wind direction. Measure and record the north offset and height.

Figure 1‑2. The north offset is the degrees of clockwise rotation past magnetic north.
  • North offset (°): The degrees of rotation from magnetic north.
  • Height (m): The distance between the ground and the center of the anemometer sample volume.

Horizontal separation distances (Figure 1‑3) are measured in a Cartesian coordinate system, which EddyPro® uses to determine the distance between the gas sample and the anemometer. The center of the anemometer is the center (0, 0) of the coordinate system. Distances from the anemometer are provided along the north-south and east-west axes. The sensor head or air inlet should be 10-20 cm from the anemometer in the horizontal plane.

Figure 1‑3. Horizontal separation distances.

For deployments that are close to a plant canopy, the center of the analyzer and sonic anemometer should be at equal heights, as shown in Figure 1‑4. If mounted over 15 m above ground level, horizontal and vertical sensor separation can be as large as 30-50 cm. Measure and record the horizontal and vertical separation distances.

Figure 1‑4. Vertical separation (0 cm in the illustration) If non-zero, measure the distance and record it.
  • Northward Separation (cm): North (positive values) or south (negative values) distance between the sample path or intake and the anemometer.
  • Eastward Separation (cm): East (positive values) or west (negative values) distance between the sample path or intake and the reference anemometer.
  • Vertical Separation (cm): Vertical distance between the sample path or inlet and the reference anemometer. Negative if the center of the analyzer or the inlet is below the center of the reference anemometer sample volume; positive if the inlet is above.

Connecting to the SmartFlux 2 or 3 System

The RM Young 81000 anemometer is automatically configured by the SmartFlux System when connected and powered on. The anemometer cable connects to port 1, 2, or 3 on the SmartFlux System (port 1 shown). Port 1 accepts 11-pin and 9-pin terminal strips. Ports 2 and 3 accept 9-pin terminal strips.

Important: Disconnect the power supply to the SmartFlux System before connecting anemometer cables.

Table 1‑2. RM Young 81000 data and power cable wire colors and pin assignments.
SmartFlux
Terminal
SmartFlux
Label
RM Young
Label
Wire
Color
9 RS-422/485 RX- B1 White/Green
8 RS-422/485 RX+ A1 Green
7 RS-422/485 TX- B2 (RX) White/Orange
6 RS-422/485 TX+ A2 (TX) Orange
5 Signal Return SREF White/Red
2 Power Out (-) PWR REF White/Blue
1 Power Out (+) +PWR Blue

There are three shorting block jumpers in the anemometer that must be in the correct position. Two jumpers connect each pair of middle pins at W6. One jumper connects the two pins at W5.

Figure 1‑5. The sonic anemometer and SmartFlux System are joined with the gas analyzer using a network switch.

Configuring the eddy covariance system

Several things need to be configured in software before your system will log valid eddy covariance data sets. These are described below.

Enter sonic anemometer information

In the gas analyzer PC software, click Site Setup > Sonic Anemometer tab, and select Anemometer connected to a digital port on the SmartFlux 2 or 3 System.

  • Port: The port on the SmartFlux system that the anemometer is connected to (1 in this example).
  • Manufacturer: RM Young.
  • Model: 81000, 81000V, 81000RE, or 81000VRE.
  • Serial Number: Optional. The anemometer serial number.
  • Software Version: Optional. The anemometer software version.
  • Wind Data Format: U, V, W.
  • North Offset: Degrees clockwise of magnetic North. Measured at the site (see Figure 1‑2).
  • Height: Distance of the anemometer sample volume above the ground. Measured at the site.

Enter gas analyzer information

The following information is required:

Additional system settings

Although not related to the sonic anemometer, configure the following settings to finish configuring the eddy covariance system.

Under Site Setup > USB Log File > USB Log File Options, set the following:

  • Log Rate (Samples per Second): 10.0 (recommended).
  • File Duration: 30 minutes.

Under Site Setup > Site Description, set the following:

  • Site Name: A name of your choice.
  • Station Name: A name of your choice.
  • Canopy Height (m): The distance between ground level and the top of the plant canopy.
  • Check Use SmartFlux GPS coordinates.

At this point, you've configured the minimum required settings to log complete eddy covariance data sets with an LI-7500x. There are additional settings to configure if you are using an LI-7200x, a biomet system, or an LI-7700, or if you want to process data using EddyPro Advanced settings. These are described in corresponding product documentation.