This picture may not represent the article well. Look at where the shadows are vs. the direction of the panels. I am all for Solar but there are too many magical mirrors and fuzzy government math claims to convince me it is even close to being economical. Why doesn't someone print the actual facts and figures?
Ttemple, instead of doing the rotation to individual panel, I would like to suggest another method. Fix all the solar panel in a single structure and by using a powerful motor they can rotate the entire structure in a single move. The power for motor rotation can be generated from solar panel itself.
Elizabeth, I had seen a similar system in a solar farm. Al the panel structure is attached to a small motor, which will rotate the entire panel structure in synchronize with the position of sun. This will help to fall the sun rays directly over the panel and hence a better efficiency.
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Thanks, ttemple. I was unsure why this was better than existing tracking systems until I read your explanation. I'd really like to see a comparison, in terms of power consumed and cost, of this system versus conventional tracking.
I think the point here is to not have motors on each pan/tilt axis of the panels. You drive the robot to the panel and make the adjustment, so there are no motors on the panels. This reduces the number of motors and drives in the system to no more than 3 - one to move the robot from panel to panel, and two to adjust the pan/tilt axes. A clever mechical design could probably get it done with a single motor and some clutches.
The robot moves the motors to the solar panels, makes the adjustment(s) on that panel, moves to the next panel, makes the adjustments, etc. That is why it takes 40 minutes to do the adjustments on a 300kw installation - it is a round-robin affair. It can only get to each panel so often.
I would be interested in seeing a comparison of the costs of a robotic system vs. the cost of individual panels. Since regardless of the type of installation you implement, you still need space, I'm wondering if as the panels become a commodity it would be cheaper to jsut add additional panels rather than trying to relocate them over a robotic track?
I would think this would be most cost effective on newly installed systems. I would be interested to know how this would work retrofitting existing installations. A 15% increase in output of panels would add a substantial amount of power to even residential systems. To reduce the number of panels needed by 15% may make, even residential systems, more viable. I would be concerned with the security of this system in adverse weather conditions, like how much wind could this system handle?
Looks like a pretty compelling use case, particularly for large-scale, commercial implementations where there are hundreds of solar panels. Not sure the cost incurred with a robotic-based system can hold up to smaller or even residential installations, though.
What should be the perception of a product’s real-world performance with regard to the published spec sheet? While it is easy to assume that the product will operate according to spec, what variables should be considered, and is that a designer obligation or a customer responsibility? Or both?
Biomimicry has already found its way into the development of robots and new materials, with researchers studying animals and nature to come up with new innovations. Now thanks to researchers in Boston, biomimicry could even inform the future of electrical networks for next-generation displays.
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