1 kW

1kW Power Generation System for Auxiliary Power (for interconnected system)

tenma_wspower_p4

Wind Power Generator

Type of generator NKC-1000-200
Output at 13 m/s 1000W
Nominal output 1180W
(3 phase, AC)
Output voltage AC 220V
Start-up wind speed 0.8m/s
Start-of-charge wind speed 2.0m/s
Survival wind speed (maximum instantaneous wind speed) 60m/s
Brake Electric brake
Rotor diameter φ1500mm
Blade Length

Width

No. of blades

Material

Surface treatment

Paint

Paint color (standard)

2500mm

300mm

4

Aluminum alloy (A5052)

Anti-rust/anti-
corrosion

Urethane resin paint finish
coating

Yellow Green
Munsell: 7.5GY6/10
JPMA: C37-60T

Support post Material

Surface
treatment

Paint

Paint color
(standard)

Structural
carbon steel
tube/sheetHot-dip
galvanizedUrethane resin
paint finish
coatingSilver gray
Munsell: N8.0~8.5
JPMA: CN-80 to 85
Height Approx. 6,820 mm
Approximate weight 500kg
Note:This Product Specification is as of Sep.2008. It would be changed due to our certain reasons without prior announcement.

Summary

This wind power generation system is connected to an existing power system using a power conditioner. It therefore has no battery and cannot be used without a power grid. If you want freestanding load operation that uses a battery or other storage system, please choose a different series.

The power output through the power conditioner is single-phase three-wire 100/200V (50/60Hz). A power conditioner is available for those who wish to have triple-phase output. Please inquire.

 

Performance

  • Interconnected System
    The power generated by the wind turbine generator is converted from AC to DC by a rectifier, and is boosted to the power conditioner’s operating voltage by a DC/DC converter. The boosted power is converted from DC to single-phase three-wire AC (100/200V) by the power conditioner, and is interconnected to an existing power grid and used as ordinary commercial electricity.
    Both the DC/DC converter and power conditioner have power load adjustment on both the input and output ends to supply power to the grid that matches the wind speed.

 

  • Brake System
    This is an electrical brake system that controls rotation when the wind speed exceeds the system’s rated rotation speed in order to continue generating power.
    When the turbine rotates faster than its rated speed due to sudden changes in wind speed such as gusts, the signal from the voltage detector (VD) causes the electrical brake to operate, thereby decreasing the rotation. When the turbine’s rotation drops below its rated speed, the electrical brake is automatically released.
    For maintenance, the electrical brake can also be applied manually to stop operation.