WIND DIRECTION MEASUREMENTS REINVENTED

A patented invention to finally resolve the inherent uncertainties in traditional wind direction measurement.
Geovane

V

CURRENTLY DEVELOPING
A WIND FARM?

Stop! Read on before you do anything else!

By adding a Geovane to your wind measurement campaign configuration you will get the most accurate wind direction data available on the market today. Guaranteed!
During the development phase of a wind farm, developers are facing several difficulties when measuring wind direction:

1
The physical impossibility of verifying the wind vanes final orientation on the boom.
2
When wind vane alignment is carried out using a magnetic compass it is necessary to compensate for the Earth’s magnetic field distortions such as the presence of the nearby met mast metal structure, and for the magnetic declination for the location, which in addition alters over time.
3
Complete met mast and sensor boom can bend and twist in harsh weather conditions, altering the wind direction measurements over time.

Perfectly aligned wind vanes with zero offset between them in no way means either of the wind vanes is correctly aligned towards True North. What’s more, despite the common misconception, adding more wind vanes does NOT resolve this issue.

Given the impact incorrect wind direction measurements have, the recently updated IEC61400.12.1 (2017) now requires complete assessment of wind direction measurement uncertainties. The Geovane solves this.

Add a Geovane to your wind measurement campaign and get the most accurate wind direction data available on the market.

And no more mistaking the geographic (True) North for magnetic North...

THE GEOVANE CAN BE USED IN
4 DIFFERENT APPLICATIONS

geovane_metmast_verification
Install it on existing wind measurement masts and use it to correct existing datasets.
geovane_metmast
For upcoming wind measurement masts and power performance test.
geovane_turbine
Precision alignment of wind turbines for advanced sector management.
geovane_RSD
Precision alignment of field deployed sodars and lidars.

FOR MET MASTS & RSD
THE GEOVANE WILL

HOW WILL THIS AFFECT YOUR
DEVELOPMENT PROJECT OR WIND FARM?

1
More accurate AEP calculations during development (see example for 24MW wind farm).
2
Avoid unforeseen wake effect production losses.
3
Extract the full power potential from your turbines.
4
Extend your turbine service-life.

Wind farm developers usually rely on one to two years of local direction measurements they correct using less accurate long-term meteorological observations from nearby weather stations to obtain a long-term average. However, such local measurements usually include error margins of around 5º- 6º degrees. This is predominantly caused due to wind vane misalignment during field installation.

Even when following the highest industry standards for installing wind vanes, measuring wind direction is inherently difficult and hard to consistently repeat from site to site. Thus, the industry standard is an uncertainty of 5º on the measurement of any wind vane, due almost entirely to the impossibility of traditional methods for correctly orienting in a known direction.

HOW IT WORKS?

The Geovane’s patented design is equipped with separate high-resolution optoelectronic sensors composed of 1024 photosensing pixels. This allows the Geovane to use the Sun to measure the True North offset of the sensor coupled to it, resulting in more accurate direction measurements than ever possible before.

Geovane obtains the True North wind vane offset by comparing the theoretical solar azimuth angle calculated by its embedded processing unit with the measured azimuth value read by its built-in photosensing pixels.

GPS

The GPS module provides the location, date, and time to the internal processing unit, enabling Geovane to calculate the theoretical solar azimuth.
GPS

PHOTOSENSING PIXELS

Using the very fine sunrays that pass through the Geovane’s precision slits in combination with the internal photosensing pixels allows the Geovane to measure changes in the Sun’s position at a resolution below 0.006º!
Photo sensing pixels

GYRO & ACCELEROMETER

The integrated tilt sensor permits comparing the theoretical and measured solar azimuth angles, even if the Geovane is not perfectly leveled.
GYRO

LASER BEAM EMITTER

The Geovane includes a high-precision laser beam emitter used to fixate its position with respect to the wind vane.
Laser Beam Emitter

INTERFACE

The Geovane is equipped with both analog outputs and an RS485 driver for convenient interface and communication with industry standard data loggers.
Interface

PRECISION SLITS

Internal heat and UV resistant molded plastic cup with fine slits for sunrays to pass through. Precision cut glass tube houses the Geovane, providing added protection for internal components from harsh weather conditions.
Precision slits

ESD PROTECTIONS

Efficient power management and ESD protections: designed for installation in remote locations equipped only with solar power supply.
ESD protections

ON/OFF SWITCH

Smart programmable on/off switch to operate an external relay for e.g. obstruction lights, heating, pyranometer ventilation units, etc. Programmable timer based or using sun coordinates (e.g. sunrise, noon, sunset…).
Switch

ADAPTOR ROD

The Geovane’s adaptor rod allows it to be fitted to any industry standard wind vane, ultrasonic anemometer, or even remote sensing device such as a sodar or lidar.
Adaptor Rod

PATENTED INVENTION

Our optoelectronic device reinvents wind direction measurement by using the Sun's orientation to locate True North, completely eliminating traditional wind vane offset errors resulting in the most accurate measurements currently possible.

Geovane receives the sun’s direct radiation and measures the wind vane offset so you can correct wind direction measurements it makes. The True North wind vane offset is obtained by comparing the theoretical

solar azimuth angle calculated by its embedded processing unit with the measured azimuth value read by its built-in photo sensing pixels.

EXAMPLE OF ENERGY LOSS
IN A 24 MW WIND FARM

Studies show even small wind direction measurement errors have a dramatic negative impact on total wind farm power output.

*Resource assesment carried out in windPRO to study how incorrect wind direction measurements can dampen the power output in a 24MW windfarm. The loss is calculated over a period of 12 months using at the time real market prices from Operador del Mercado Ibérico de Energía.

The distribution of wind direction is extremely significant for a wind farm layout. Even minor measurement errors can significantly diminish total power output. Inaccurate wind direction measurements can lead to inaccurate

spacing that does not allow wakes to recover and expand before encountering another downwind turbine. This dampens the power output from affected turbines.

Other effects e.g. higher wind turbine loads and fatigue are not quantified in this study

This wind direction is incorrectly considered as the predominant wind direction as a result of using only wind vanes during the wind measurement campaign. The wind farm layout is therefore not optimized.
Downwind turbines WGT 11 / WTG 12 are affected by the wake caused by WTG08, since the real predominant wind direction is different from the one measured. In this illustrated example we have considered a conservative wind vane offset error of ±7º degrees.

The wake affect caused by the upwind turbines prevents downwind turbines from working under free stream conditions. As a consequence, the downwind turbines in this example will permanently underperform.

Using the Geovane, the real predominant wind direction is attained; leading to an optimal wind farm layout.

INTERESTING FACTS

1
The project has received funding from The Centre for the Development of Industrial Technology (CDTI) in Spain. For this process, it went through rigorous lab, real life trials and audits.
2
The Technical University of Zaragoza, Spain assisted during the development of the Geovane providing advanced mathematical shadow algorithms.

I AM INTERESTED

Please fill in the following information for one of our experts to help you.
You are of course also welcome to call us on
+34 976 221 789

How do you plan to use the Geovane?

  For installation on existing masts to correct existing wind data
  For future wind campaigns or power performance tests (met mast)
  For aligning sodars/lidars
  For wind turbine alignment
  Sign up to our newsletter and get the latest news and important updates about the Geovane.
Send