The V105-3.45 MW™ is designed for severe climatic conditions and is especially suited for markets with tip-height requirements.
V105-3.45 MW™ at a glance
With a rotor size of 105 m, the V105-3.45 MW™ IEC IA is the turbine that fits the most severe wind conditions. It has an extremely robust design for tough site conditions and is especially suited for markets with tip-height restrictions and high grid requirements.
The V105-3.45 MW™ blade is a shortened version of the proven and tested pre-preg blade used on the V112-3.0 MW®, the V112-3.45 MW® and the V117-3.45 MW®. Like all 4 MW turbines, the V105-3.45 MW™ is equipped with a full-scale converter ensuring full compliance with the challenging grid codes in countries like the UK and Ireland.
available for the
- High Wind Operation
- Power Optimised Mode
- Condition Monitoring System
- Service Personnel Lift
- Vestas Ice Detection
- Low temperature operation to -30°C
- Fire Suppression
- Vestas Shadow Flicker Control System
- Vestas Bat Protection System
- Nacelle Hatch for Air Inlet
- Aviation Lights
- Aviation Markings on the Blades
- Vestas InteliLight™
POWER REGULATION OPERATIONAL DATA
Pitch regulated with variable speed
Cut-in wind speed
Cut-out wind speed
Re cut-in wind speed
Standard operating temperature range
from -20°C* to +45°C with de-rating above 30°C
(Noise modes dependent on site and country)
full blade feathering with 3 pitch cylinders
Height for transport
Height installed (incl. CoolerTop®)
two planetary stages and one helical stage
72.5 m (IEC IA)
Max. transport height
Max. transport width
Max. transport length
Max. weight per unit for transportation
70 metric tonnes
Return on energy break-even
Lifetime return on energy
Configuration 72.5m hub height and wind class IECIB. Depending on site-specific conditions
The Vestas 4 MW platform sets new standards for onshore wind performance within regimes ranging from very strong wind and typhoon conditions to low wind.
It is key to find the right turbine for your wind site. The V105-3.45 MW™ IEC IA is designed for high-wind sites with high turbulence.
The performance and versatility of the 4 MW platform has been proven with more than 61 GW installed in 57 countries since 2010.