Determining the position of aircraft with centimetre precision is crucial for the efficiency of ...
With 90 wind turbines and a total capacity of 500 MW, Windplan Groen is the largest wind farm cluster in the Netherlands. The park was criticized because of the constant flashing of the turbines at night. Residents had complained about the light pollution and the impairment of the landscape. To solve this problem, the light:guard system for demand-controlled night marking (BNK) was installed in cooperation with Topwind. The BNK system uses transponder signals and multilateration (MLAT) to detect the position of flying objects. Only when an aircraft is nearby are the obstruction lights of the systems activated. The system's infrastructure includes seven Light:Guard Receivers (LGRs) and eleven Light Control Units (LCUs) throughout the wind farm. Needs-based night marking was able to significantly reduce light pollution. In the first month of operation, the lights remained off an average of 97% of the time, despite high flight activity. The BNK system showed high reliability with minimal errors. This has increased the acceptance of the wind farm among the local population and at the same time ensured flight safety.
Light:Guard GmbH has developed the wind plan
Groen in the Netherlands with demand-controlled night marking (BNK)
equipped. In the first month of operation, the built-in light:guard system
lights-out times of over 97%.
Windplan Groen in Flevoland
is a cluster of eleven wind farms with 90 turbines from various
Manufacturer. With a total capacity of 500 MW, the
1800 GWh of electricity. This makes Windplan Groen the largest wind farm on
Dutch soil.
Residents, however, had
complains: the constant flashing of the turbines at night disturbs the natural
landscape and contribute to light pollution.
"We have heard from residents of Windplan
Groen hears that they are annoyed by the flashing of our systems. Therefore,
We are so happy about the light:guard system, which ensures that the lights are so
hardly ever blink," says Allard van der Steege,
Chairman of Windplan Groen. "We want a good neighbor for our surroundings
be. Light:Guard, together with the Dutch company Topwind, has
contributed. We like that very much."
Topwind BV has been distributing the
light:guard system for demand-controlled night marking in the
Netherlands, which was also used here. Seven transponder receivers and
eleven light control units were installed as an ADL infrastructure. That
BNK system uses the transponder signals of flying objects to determine their position.
determine. Only when a flying object is nearby, the
Obstacle lighting of the wind turbines activated.
The technology of the
Multilateration. To do this, the system uses the
data from several receivers in order to determine the location and trajectory of the flying object.
calculate. In this way, more accurate results can be achieved than if everyone
wind farm can only access a single transponder receiver.
How exactly
the results of multilateration and thus the reduction of flashing
The example of Windplan Groen shows very clearly. Despite several
airports and correspondingly high flight activity, the
Flashing at all eleven wind farms reduced by an average of over 97%. At the Olsterwind wind farm
a lights-off time of almost 99% was even achieved with an average of over 75
Detections per night measured throughout August.
In
Olsterwind wind farm, the lighting was increased by over 99% over the entire month of August.
– with over 2000 detections. Image: Light:Guard GmbH
"I am very proud of the Topwind and Light:Guard teams," says Felix Weiss, Head of Business Development at
Light:Guard: "I can't stress enough that these great
results and the high switch-off times are only possible because all
have cooperated well with us: the manufacturers, ILT and
especially Windplan Groen. The project is a real benchmark for us and
shows what is possible with multilateration."
The exact data of all wind farms can be found at https://light-guard.com/aktuell/fallstudie-bnk-im-windplan-groen.
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