The present invention relates to a system and method for balancing a wind turbine blade, in particular a partial pitch wind turbine blade.
In wind turbine construction, a two or a three bladed rotor must be accurately balanced. Otherwise the turbine may have problems during start-up and operation. Usually, some balance weights are placed close to root of the blade and close to tip also. Recently, the preferred method is to add weight to the tip only, in order to achieve the same self weight moment for all blades.
An example of a known balancing system is seen in Danish Patent DK 176901 B1. This involves the formation of holes in the body of the blade for the addition of balancing weights along the blade. In practice, it is relatively difficult to close a hole in a very flexible glass fibre blade shell. Also, a special chamber is required for the balancing weight, which results in additional costs for manufacture. Furthermore, there are potential risks that balancing weights may fall off and destroy the internal blade, or in worst case be thrown several hundred meters away from the turbine.
US 2008/124216 A1 discloses a wind turbine comprising three blades, where said blades are partial pitch blades each comprising an inner blade portion and an outer blade portion. The pitch system is operable to pitch the outer blade portion relative to the inner blade portion, but the document does not disclose details about balancing the blades in any manner.
It is an object of the invention to provide an alternative balancing system for modern wind turbine blades.
Accordingly, there is provided a partial pitch rotor blade for a wind turbine, said rotor blade having a length of at least 35 metres, the blade comprising:
As the pitch system can be used to hold the balancing weights necessary to balance the rotor blade, this allows for ease of interchange of balancing weights (i.e. weights can be relatively easily added or removed to the pitch system), improved structural stability of the rotor blade (no fundamental alterations need to be made to the blade body or profile to accommodate the weights), and improved safety (as balancing weights are no longer provided in the blade tip, there is reduced chance that the balancing weights may be thrown free of the blade, e.g. during hazardous weather conditions).
Preferably, said pitch system comprises at least one bracket to receive one or more balancing elements. The balancing elements can be made from steel, lead or other suitable material that can be arranged on said bracket or brackets. The term bracket is to be understood as a broad term, as a bracket in its simplest form can be a part of the overall construction onto which a balancing element can be installed. A bracket can however also be made with a specific shape and appearance adapted for receiving one or more balancing elements with a specific design. In a preferred embodiment of the invention one or more brackets are arranged in rigid connection with the above mentioned first and second flanges at the pitch system. The brackets have a structural purpose at the pitch system as well as the purpose of holding one or more balancing elements.
Preferably, said at least one balancing element coupled to said pitch system on said partial pitch rotor blade is a multi position able balancing element. With a multi position able balancing element it is possible to position the same balancing element in different positions on the pitch system. This allows for not only balancing the blade with respect to e.g. the weight in the tip end and at the pitch system, it also allows for balancing the rotor blade in a plane orthogonal to the length of the blade.
Preferably, said at least one balancing element is at least partly constituted by a pitch mechanism. Simply by moving the pitch mechanism to a different position on the pitch system, the balance of the blade can be changed or corrected.
Preferably, said inner blade portion is a blade extender (also called a hub extender). The inner blade portion can comprise brackets and balancing elements at the root end, where it typically will be installed to a hub. A partial pitch blade can according to the invention be balanced at the root end, at the pitch system and at the tip end of the blade. Preferably it will only be balanced at the pitch system.
There is also provided a wind turbine comprising a wind turbine tower and a wind turbine nacelle provided at an upper end of said tower having a hub and a plurality of rotor blades, said rotor blades having a length of at least 35 metres, wherein said plurality of rotor blades comprises at least one partial pitch rotor blade as described above.
There is further provided a partial pitch system for a wind turbine blade, wherein the pitch system comprises at least one bracket, said bracket being arranged to receive a balancing element to balance said partial pitch blade. Preferably, said pitch system further comprises at least one balancing element.
There is also provided a method for balancing a partial pitch rotor blade for a wind turbine, the method comprising the steps of:
Preferably, said balancing element is selected based on the characteristics of said rotor blade. By characteristics it is meant that the dimensional aspects of the rotor blade components, e.g. the balancing moments of an assembled rotor blade, without any balancing elements attached to it.
Preferably, said inner blade portion comprises a substantially hollow blade extender portion, and wherein said step of mounting comprises mounting said balancing elements to said pitch system through the interior of said blade extender portion.
As the blade extender is hollow, and as the balancing elements can be mounted to the pitch system (which is exposed to the interior of the assembled blade), this means that a worker may easily enter the interior of the assembled blade to add or remove balancing weights to the pitch system as needed. This removes any complicated drilling of holes etc. in the body of the blade to add balancing weights, and accordingly allows for improved structural stability of the blade construction. Accordingly, said step of providing a method for balancing a partial pitch rotor blade may comprise assembling said partial pitch rotor blade, or providing an assembled rotor blade.
Preferably, the method further comprises the step of measuring the balancing moments of said rotor blade in a balancing apparatus, wherein said balancing elements are selected based on said measured balancing moments of said rotor blade.
In general, blade manufacturers provide details regarding the required root and tip weight of both blade extenders and rotor blades. From such details, it is possible to calculate the required balancing weight which would be needed at the pitch system to achieve the same weight moment for the entire assembled blade (i.e. blade extender+pitch system+rotor blade).
Furthermore, in the case of damaged or wrongly balanced rotor blades, the system provides for a relatively easy method for removing balancing weight as required.
An embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawings, in which:
In
In general, the inner most blade parts 9, 10 are formed from relatively rigid blade extenders (also known as hub extenders).
As it can be seen from
In
With reference to
A toothed cog wheel 26 is provided coupled to said blade extender circular flange 22. The interior surface of said outer blade circular flange 24 comprises a toothed track 28, wherein said toothed cog wheel 26 is arranged to run on said track.
A control connection 30 is provided on said blade extender circular flange 22, said control connector arranged to drive said toothed cog wheel 26, so that said outer blade circular flange 24 may be controllable rotated relative to said blade extender circular flange 22.
In use, said blade extender circular flange 22 is bolted to said inner most blade parts 9, of the wind turbine 1 (e.g. via bolt holts seen in
Control signals/power is provided to the pitch system 20 via the control connection 30. The control connection 30 is coupled to the cog wheel 26 via a pitch gear 31. The pitch gear 31 is installed to a bracket 34 on the pitch system 20. It is to be understood that
In order to appropriately balance the blades 4, 5 of the wind turbine 1, the pitch system 20 further comprises at least one balancing element or balancing weight 32 mounted on a span member or bracket 34 provided on said blade extender circular flange 22.
The balancing elements 32 are chosen so as to add compensation weights to the blades 4,5 to ensure that the wind turbine 1 is in balance.
Knowing the weight of the inner and outer most blade parts 7, 8, 9, 10, as well as the weight of the pitch system 20 itself, an appropriate weight of balancing element 32 can be chosen for the wind turbine blade 4, 5 in question.
With reference to
In cases where a blade extender and outer blade are manufactured in the same factory and balanced accordingly, they may have same weight at the root end and same weight at the tip end. This results in same self weight moment when the blades are put together, so further balancing needs to be performed when such elements are combined with a partial pitch system. This may be done by adding compensation weight to one (or two) of the pitch systems only.
In some cases, the root and tip weight of both blade extender and blade is known in advance. By performing calculations it is possible to work out how much weight is needed at the pitch system to achieve same self weight moment for all blades. This method does not require any compensation weights to be added to the blades or the blade extenders. This is the preferred method, since it is much easier to add weight to a steel pitch system than to a glass fibre blade or extender. Also, in case of a wrongly balanced rotor it is easy to add or take away more compensation weight. This is an advantage in the case of replacement of a lightning damaged blade.
In other cases, a rotor may be assembled together, comprising an outer blade, a pitch system, and a blade extender. The assembled blade can then be lifted onto a balancing apparatus, and the extra weight needed to be added to the blade can be measured by mounting a measuring scale at the pitch area of the blade. Accordingly, a worker can then crawl into the blade extender section and add the compensation weight to the pitch system. Such a method allows for the ease of balancing of blades after the blade has been assembled.
While the balancing elements 32 are provided as bars of for example lead, it will be understood that the balancing element may have any suitable construction, and may be coupled to any suitable portion of the pitch system 20.
It will be understood that while a two-bladed wind turbine is shown in the embodiment, the invention may be easily applied to any wind turbine design utilising a partial pitch blade.
The above system provides the advantage of an accurate balancing system which does not require any openings to be formed in the blade for the addition of compensating weights, which may affect the integrity of the blade. Also there is reduced risk in loose weights being thrown from the blade during operation.
The invention is not limited to the embodiments described herein, and may be modified or adapted without departing from the scope of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
PA 2010 70494 | Nov 2010 | DK | national |