Solar module tracking systems are motorized mechanical racking systems that orient a solar array towards the sun. A tracker optimizes the angle at which panels receive solar radiation thereby maximizing electricity production of a solar plant. The angle at which the sun''s rays meet the surface of the solar panel determines how well the panel can convert the incoming light into electricity. This is known as the "angle of incidence". The narrower the angle of incidence, the more energy a photovoltaic panel can produce. Solar trackers help to minimize this angle by working to orient panels so that light strikes perpendicular to the surface of the panels.
Types of solar trackers
There are primarily two types of solar tracking systems, namely single-axis and dual-axis. A single-axis tracker moves the solar panels on one axis of movement, which allows the panels to arc from east to west and track the sun as it moves through the sky. A dual-axis tracker allows panel movement on two axes, aligned for both north-south and east-west. This kind of a system is designed to further maximize solar energy collection throughout the year as it not only tracks the daily east-west motion of the sun but also adjusts for seasonal variation in the path of the sun.
Benefits and drawbacks of solar trackers
The biggest benefit of a solar tracking system is that it offers a boost in electricity production when compared to a similar sized static solar plant. Generally, a plant installed with a single-axis solar tracker sees a performance gain between 20 to 30 percent. A dual-axis tracker further increases performance up by another 5 to 10 percent. Which means a dual-axis tracker system increases performance efficiency by up to 40%. Especially, in high latitude locations where the sun''s position in the sky varies dramatically between summer and winter months, a dual-axis tracking system is an effective way to maximize solar production.
Though trackers are a fantastic system for increasing the energy output from a PV plant, there are a few considerations to bear in mind. Tracking systems attract substantially higher installation and maintenance costs over static solar plants. A solar tracker will cost more money because it is a complex technology and has moving parts. With a more complex system comes more maintenance, which add up in cost over time.
Another disadvantage of a solar tracker is that they are not viable for rooftop solar installations, which is usually characterized by lower installation cost and ease of maintenance. Moreover, since tracking requires panels to be offset a significant distance from each other to allow for movement. This substantially limits the number panels that can be installed as well as make the system too heavy for rooftop applications.
The future of solar tracking systems
Solar trackers offer the greatest value proposition in large ground-mounted solar installations, especially in high latitude locations where there is extensive variation in the path of the sun between summer and winter. In these large commercial projects, the long-term benefit of increased production is enough to offset the initial investment cost and maintenance costs. However, as solar panels get cheaper, the cost effectiveness of tracking systems versus using a greater number of panels decreases. In the past when photovoltaic modules were comparatively more expensive, and it made sense to minimize the number of panels used in a plant with a given power output.
Therefore, in the current scenario, the economic viability of solar trackers is directly dependent upon the space available to set up a solar plant.
A version of the article first appeared in a blog by mounting provider Solar FlexRack. Read the company’s blog here.
Solar trackers are rising in popularity, but not everyone understands the complete benefits and potential drawbacks of the system. Solar panel tracking solutions are a more advanced technology for mounting photovoltaic panels. Stationary mounts, which hold panels in a fixed position, can have their productivity compromised when the sun passes to a less-than-optimal angle. Compensating for this, solar trackers automatically move to "track" the progress of the sun across the sky, thereby maximizing output.
It''s a fantastic system for energy output, but there are a few considerations to bear in mind before pursuing one for a particular jobsite.
Overall, solar trackers are highly efficient installations and are a great fit for both large and small project sites given the proper location and site conditions.
Reading through the comments I do not see anything about the support structures required. If you have just a tilt tracker the solar panels can be mounted on a single pivot axis that could be simple hinges along one edge of the solar panel or a central pivot. Then all that is required is a single or double actuator to do the tilt. It is important to make the system strong enough to take not only the weight of the panel(s) but also other loads including wind and snow. If using a pan tracking arrangement you need a vertical pivot. This will require a heavier support structure and heavier foundations or other fixing. Even with a moderate size of solar system the design loads can be several tons.
As we go from lower to higher latitude,with EW tracker : generation & PR would be higher or lower
All great questions. Mine is a little simpler. Are solar trackers covered under the 30% tax credit?I''m looking to go solar soon. So can someone answer this question quickly?
Mark Gurney’s DIY system looks pretty good for a residential set-up. However, I do not have a “Truck Differential” so I have to find an alternative. Can anyone advise of an “off-the-shelf” tracker system to employ for a small residence in Northern Arizona? Probably will use an array of panels (maybe 6, 8, or 12) to power up a residence, shop, and greenhouse.
Why on earth do you need solar sensor with the system? You don’t know how to calculate sun offset based on date/time/location? That’s not a good introduction to your systems..
Just my thoughts, by using a sensor and moving to where the sun is, removes the need for an on-board computer to do the math and remember formulas and the necessity to make sure date and time are set correctly or harvested from external source. I would think simpler would be cheaper.
Did you ever hear of an helio tracker? Think of a sunflower, this flower points toward the sun as it grows. If you are able to mirror a natural event mechanically, why not make it instead of spending the effort of calculating when and where to turn the solar panel.
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