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Zawartość zarchiwizowana w dniu 2022-12-27

CONTROL ALGORITHMS FOR OPTIMAL INTEGRATION OF WIND ELECTRICITY INTO A REFRIGERATING PLANT (ONE WT)

Cel

Introduction of control algorithms for peak-shaving for an industrial refrigerating plant, exploiting the possibility of energy storage. Innovative aspects of the 150 kW wind turbine are the use of flexible rotor system with a passive pitch control combined with a soft electrical conversion system.

Two Berewoud wind turbines of 150 kW each will be installed near the "Flushing cold storage", in Flushing, where annual wind speed at hub height is about 6 m/s. The wind turbines, type WINDVANG 220.150 KEWT are of an advanced innovative concept. A flexible rotor system with passive pitch control is used in combination with a soft electrical conversion system. The operational status of the wind turbines will be monitored with an "operational status unit" of novel design. The use of two wind turbines in tandem operation smoothes the fluctuations of the output power, thus increasing the degree of self supply.
Peak-shaving and optimal integration of wind electricity into a cold store is accomplished by manipulating the temperature levels of structure and load of a frozen food store. Surplus wind electricity is stored and the peak power consumption can be reduced. As a result, the degree of self supply can be increased from ca. 60% to ca. 95%. A peak-shaving of 250 kW can also be expected. The estimated annual energy yield is 550 MWh (from both wind turbines), which results to an estimated payback period of about 9 years.

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Koordynator

BEREWOUD ENERGIE BV
Wkład UE
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Adres
GENERATOR STRAAT 13D
3903 LH VEENENDAAL
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