Photovoltaic systems provider Conergy is using igus plastic bearings in a new solar tracking system
Always at the right angle to the sun: this is guaranteed by the SolarOptimus tracking systems on the latest Conergy photovoltaic installations. The twin-axis drive systems are controlled by an astronomical algorithm which increases the production efficiency of eco-friendly energy by around 30 per cent.
To enable the systems to run maintenance-free over longer periods even under extreme weather conditions, Conergy chose to use igus components for all plain bearing applications, as well as rod end bearings and linear units.
Conergy provides complete system solutions for the production of renewable energy (wind, sun and biomass) all over the world — including project management, service and financing. In addition, its impressive growth rate is generated by the company increasingly developing and manufacturing their own products. For example, Conergy is currently investing around £200m in building the most modern production facility in Europe for fully integrated solar wafer, cell and module production in Frankfurt. When completed, this facility will employ around 1000 people.
'Make or buy' decisions
Whether to make or buy is is a question always analysed very carefully. Bernd Krabbe, head of the Engineering and Service department in the Global Technology Team Electronics at Conergy's design headquarters, says: "We look around on the market and evaluate whether or not there is a system already available that meets our high customer requirements. If this is not the case, we develop a product of our own." In the case of tracking systems for photovoltaic systems, the existing products apparently did not live up to the demanding requirements, because Conergy recently presented their new system: the SolarOptimus.
This system has the task of always optimising the alignment of the photovoltaic generators — an investment that pays off for the operator, because energy production can be increased by more than 30 per cent by twin-axis tracking systems. In Northern Europe, this optimum position detection always moves to the brightest spot in cloudy conditions. In Southern Europe, on the other hand, where the sky is often cloudless and there is a high brightness level, a system that keeps the photovoltaic modules at a right angle to sunray incidence on the basis of astronomical data is more effective.
Long service life in difficult conditions
This control principle is also used by the SolarOptimus, which was developed especially for the radiation-intensive southern Europe regions. The modules are moved in two horizontal axes according to an astronomical algorithm. During development of the frame system, the main focus was on durability and maintenance freedom, since the systems are often set up in remote areas without any on-site personnel. For this reason, the developers consciously eliminated complex drive systems, preferring to use components that have a straightforward but high-quality design.
This applies to both the motors and the bearings. Bernd Krabbe, who is also project manager for SolarOptimus development, said: "We explained our requirements to several suppliers of bearing systems and asked for their solution suggestions." It had to be considered that the set-up locations for the solar systems are often very dry, with the high levels of sand and fine dust. Another factor is the very wide temperature spectrum across which the bearings have to work perfectly.
All bearing points of the SolarOptimus are equipped with igus products. On the main axes of the frame systems, which are around 20m long, iglidur plastic bearings ensure low-friction and maintenance-free operation. The built-in solid lubricant of the high-performance polymer also guarantees that no lubricants have to be added: this is a central pre-condition for the long service life of the bearing under the given conditions.
With iglidur G, Conergy is using the all-rounder among the numerous iglidur materials. It is suitable for pivoting and rotary movements at low to medium speed. The iglidur G bearings can also operate in dirty, dusty conditions without any problem.
Taking the strain off motors
To reduce the strain on the drive systems, the Conergy development engineers have used linear bearings in the adjustment systems. Here too, high-performance polymers from igus are used: DryLin linear plain bearings guarantee the exact linear motion of the axes. The DryLin W bearing slides on a hard anodised alumnium rail profile, the combination giving low-friction running without stick/slip effects.
Here, igus adapted the mounting plate for the moving components to the requirements of the Conergy developers. Sand and dust have no effect, whatsoever on this linear bearing: any debris is simply pushed away by a snowplough effect without affecting the gliding properties.
Conergy has used igubal rod end bearings for the couplings which link the solar module carriers together. These connecting parts absorb high forces, have very good damping properties and weigh five times less then conventional metallic bearings. Even if the environment is polluted by fine or coarse dust, the rod end bearings remain maintenance-free. There is no danger of seizing or blocking, and the integrated solid lubricants ensure low friction with maximum abrasion resistance.
Trial by sand
Drives on the module frames, which are responsible for the north-south alignment, apply a force of 6800N, the drive of the main frames for east-west tracking 10,000N. The speed is low at 4mm/s maximum and the drive is moved through a maximum of one full revolution per day. Nevertheless, high demands are made on wear resistance, because the environmental conditions affect all components. This is why igus carried out comprehensive series of tests for Conergy, and had extremely abrasive sand flown in from southern Spain, where the first SolarOptimus systems have been installed in the meantime.
Even under test conditions described as 'tougher than reality', the igus bearings did not have to be replaced over the whole calculated service life of the SolarOptimus. This also applies to the UV resistance of the plastic as well as the wide temperature range and the humidity.
In the meantime, the first SolarOptimus systems have been installed for some months in practical operation in southern Spain — with all the evidence pointing to the calculated increased yield being achieved by the astronomically supported tracking. After overall completion, 800 movable systems will be producing eco-friendly solar energy at this location and feeding it into the power network.
