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Imbalances on wind turbines: Causes, effects and solutions

Avoiding unnecessary loads for wind turbines with continuous monitoring of pitch angles. Use the button below to book a first appointment to learn more about eologix:align.

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To ensure efficient and reliable power generation by wind turbines, they must be regularly maintained and inspected. This should also ensure that any imbalances that may exist are detected promptly and corrected in a targeted manner.

Basically, two types of imbalances can be distinguished, which are based on different causes and require different approaches for elimination:

Mass imbalance and
Aerodynamic imbalance

Since both types of imbalance can occur separately or in combination in wind turbines, it is advisable to first identify the cause(s) of the imbalance.

In order to avoid misdiagnosis or, in the worst case, even to increase vibration and loads by wrong recommendations, the following procedure has proven itself in practice:

First, the system is checked for any blade angle deviations between the blades. If specified limit values are exceeded, these are corrected.

This is followed by a check for any mass imbalance of the rotor. If previously defined limit values are exceeded, this is corrected by introducing correction masses.

Types of imbalance

Mass imbalance - uneven distribution of the rotor mass

Mass imbalance occurs when the mass of a rotating body is not evenly distributed around the center of gravity. This results in uneven forces during rotation, which can lead to vibrations and oscillations. The forces acting in mass imbalance are usually centrifugal forces and inertial forces.

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Aerodynamic imbalance - deviation of the aerodynamic properties of the blades

Aerodynamic imbalance, on the other hand, occurs when the aerodynamics of the rotor blades are uneven, resulting in forces that can throw the rotor out of balance.

To calculate aerodynamic imbalance, various factors must be taken into account, such as wind speed and direction, the number of rotor blades, the shape and size of the rotor blades, and the geometric arrangement of the rotor blades.

Causes of rotor imbalances

Imbalances have a variety of causes. A few possible causes of mass imbalance and aerodynamic imbalance are listed below.

Mass imbalance

Mass imbalance is essentially caused by unequal distribution of the masses in the three rotor blades. The different mass distributions are caused, among other things, by:

Errors in the manufacture of the rotor blades
Major blade repairs or the replacement of a single rotor blade
Clogged drain holes for condensate or infiltrated liquid (e.g. rain water)
Uneven mass distribution in the rotor blades due to incorrect balancing
Ice accumulation

Aerodynamic imbalance

Aerodynamic imbalances are caused by, among other things:

Different blade pitch angles (blade angle errors)
Assembly and/or manufacturing errors
Changes in the rotor blade geometry due to poorly executed repairs
Changes in the profile characteristics of the rotor blade
Ice accumulation

It is important to note that mass and aerodynamic imbalances have different causes and therefore require different methods to correct.

Mass imbalance requires realigning the center of gravity of the rotor components to bring it back into proper balance. Aerodynamic imbalances, on the other hand, require a check of the blade angle differences and possibly a repair of the rotor blades or other rotor or even pitch system components.

Effects of imbalances

Imbalances can have a significant impact on wind turbine operators. If imbalances are not detected and corrected, this can have a massive impact on the service life and energy yield of the wind turbine. The following effects can result:

Increased wear

Imbalances can lead to increased wear on the rotors, drive shaft, bearings and other components of the wind turbine. This can lead to downtime and high repair and maintenance costs.

Reduced service life

Uneven loading due to imbalances can cause fatigue damage to the entire wind turbine, shortening the economically useful life of the turbine.

Safety risks

An imbalance that is not corrected can lead to dangerous vibrations and oscillations that can endanger not only the equipment itself, but also the safety of people and other living creatures.

Reduced energy yield

Aerodynamic imbalances in particular can lead to a reduction in the power characteristics and thus a reduction in the energy yield of the wind turbine, as the turbine can no longer operate that efficiently.

It is therefore important for wind turbine operators to detect imbalances at an early stage through continuous monitoring and to correct them. In combination with regular inspections of the rotor, this ensures the safety, performance and service life of their turbines.

Detect and correct imbalance at an early stage

In order to maximize the efficiency and service life of a wind turbine, it is important to carry out inspection, correction and repair work in a targeted manner.

Continuous monitoring with sensors attached to the rotor and nacelle provides the opportunity to detect imbalances at an early stage and to carry out an initial differentiation according to the causes of imbalance.

Imbalances on wind turbines: Causes, effects and solutions

Types of imbalance

Mass imbalance - uneven distribution of the rotor mass

Aerodynamic imbalance - deviation of the aerodynamic properties of the blades