9.0 Wind Turbine Operation
NOTICE: Use of the material contained in this document is subject to the warning on page Iv and the disclaimer
on page v of this document.
DOC012R02 AOC 15/50 User Manual Nov 2001
81
During routine inspections in aggressive environments, particular attention should be directed at
locating oxidation and blistered paint. If any such surface degradation is found, corrective
action should be taken immediately; the corroded layer should be removed and either paint or a
corrosion-inhibiting film, such as Soft Seal, should be applied. The edges of holes (knockouts)
drilled through electrical boxes for conduit installation must also be coated to prevent corrosion.
9.4.2 Lightning
The wind turbine and tower are protected against voltage surges. However, protection from
direct lightning strikes cannot be guaranteed. If the system fails after an electrical storm all
electrical components should be checked. Note that many components can be damaged due to
lightning and the following items have been know to fail due to lightning strikes: anemometers,
shaft speed sensors, generator, 120 VAC and 480 VAC surge suppressors and relays. After a
lightning strike, the entire system, including the interconnect wiring, should be checked. If
possible, power to the system should be turned off prior to an electrical storm and not be
reconnected until the storm has passed. The most common cause of damage to electrical
devices is voltage surges due to lightning strikes to the utility line.
9.4.3 Ice and Snow
Ice or snow will not normally affect wind turbine operation unless it builds up on the blades
and/or tip brakes. If such build-up is uneven, it can cause rotor imbalance, which may lead to
system vibration, if the rotor is allowed to rotate. During periods of potential icing the wind
turbine should, therefore, be switched off.
CAUTION
IN EXTREME CASES ICE BUILD-UP MAY CAUSE DAMAGE
TO THE SYSTEM. THEREFORE, IT IS NOT RECOMMENDED
THAT THE WIND TURBINE BE OPERATED WITH
SIGNIFICANT ICE BUILD-UP.