My biggest disappointment about my 200KW (commercial scale) solar system.

What is it you might ask?

They don't work in the heat.

My system went live Sept 9, 2010. In today's technology age I can check second by second how much electricity it's producing. In Pennsylvania, we've had a remarkable string of sunny, almost cloudless days going back to 3-4 days before memorial day. My thought was my system is racking up the Kilowatts!

As I checked my graphs on daily production with the guy who installed the system (and several other commercial systems), I couldn't help but notice that about 3 days of the production was down 20-40%, which I didn't understand. So of course, my installer is sitting by my side. What happened these 3 days I ask? Oh those were the days it was 90-95. Me: So? Installer They don't work so well in the heat!

My installer never told me this, and I've read a fair amount about solar panels. Up until 2 weeks ago I never read about it. It was in the local newspaper about a week previously when another local (who built a 1MW system) complained about it.

So there you have it folks. They don't shut down, but they are definitely not as efficient in the heat as they are in the cool. Sort of makes the whole 'put them in the desert thing' not such a good idea. Our memorial day weekend temperatures were by far the highest we've had since it went live 9/9.

http://www.learnonline.com/pdf/The Effect of Heat on Solar Panel Output.pdf

http://www.reuk.co.uk/Effect-of-Temperature-on-Solar-Panels.htm
"The total power loss due to the increase in temperature was from around 750 mW down to just 458 mW - a fall of almost 40%! Had the solar panel been pre-cooled in the fridge before the experiment was started the peak power output would certainly have been even higher."

Oh, it pays, and pay it does.

But it's the government and the electric utilities paying me for my solar credits.

sorry on the first link, I can't seem to fix it.

BeGreen said:

This is something I am hoping we don't run into at all. It's rare for us to get in the 80's here. And our panel design allows more free-air flow which should help it cool better.

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If you only get into the 80's you should be fine. My problems were on 90*+ days.

My system sits in the middle of a parking lot/field. Plenty of air, IF the wind is blowing.

When you stand next to/or under these things you can feel the heat radiating off of them. It's HOT. Hot enough to worry about them long term. I knew they loose efficiency each year, but we all know what happens when something sits in the sun day after day - year after year. And these are installed with the intention of getting as much sun as possible.

BeGreen said:

I meant the actual design of our panels are inherently cooler. The cells are laminated between layers of tempered glass. I'll watch for output changes on a hot day and will take some backside of the panel temp readings to check this out. So far in aging tests they have passed the 60yr test which apparently is an industry first. For sure they will outlast me.

In a similar vein, there is research being done on applying a quantum dot, dye-sensitized surface layer to solar panels to capture the waste energy (heat) of the sun and convert is to usable power, similar to the way a plant does. Initial testing is promising. And there are experimental cells built with quantum dot material that show promise. If it works, it will revolutionize the solar panel industry.

http://en.wikipedia.org/wiki/Quantum_dot_solar_cell

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I missed it, what do you do for a living? Are you working for one of these companies? Your info is interesting.

BeGreen said:

I work in a very unrelated field (computers) and have no relatives working for them either . Green technologies have always been a passion of mine. I like it when we humans get together and work intelligently for a better future. It gives me hope and gets me out of bed every day.

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So you're installing a system on your house then? I'm referring to your comment about your cells being between two pieces of glass.

You'll be interested in the fact that I spent all day today working on numbers for a 1MW solar field. It seems construction costs are down to around $3.00/watt which equates to a 3.7% return on $.10/KW electric. It's amazing when you consider that they were 1.8% ROI just 2-3 years ago. My guess is it needs to get down to around $1.25-$1.75/KW to be financially sustainable without subsidies.

However, it doesn't appear that the price drop is due to technological advances so much as material fluctuations although some of the price drop was due to the industrialization of it. Now I could have 10 competent bidders, whereas 3 years ago the installer and manufacturer were sitting on some very, very fat margins.

The problem with getting to $1.25/KW is the racking system can easily cost $.50-$.75/KW which has nothing to do with power production.

Due to some price haggling by myself, I got the system cost down to $3.21 per watt. I can not believe how hard prices have crashed. My 200KW system last year was right around $5.50/watt. What's that work out to 41% price reduction?