Solar Panels Reach $1 a Watt

ZosX writes "An article over at Popular Mechanics announces that, for the first time, solar cells have been manufactured for the much sought-after figure of $1/Watt. They also talk about a new study of the cost of the particular raw materials used in different manufacturing processes. The conclusion is that the company that just achieved the $1/W milestone, using cadmium telluride technology, may not prove to be the long-term winner capable of meeting demand when it rises into the terawatt range."

Wow

[Junior+J.+Junior+III]

I'm not sure what my peak load is at home, but at $1/Watt I imagine I could generate all my own electricity for less than $10,000. Assuming my roof has sufficient room for it, that's really awesome. My current electric bill is around $65/mo. which means that in 153 months this would be paying for itself, or about 12 years. Of course, figuring in things like maintenance, repairs, and so forth makes this harder to gauge, but that's pretty good. Now the consumer electronics industry just needs to convert everything over to run on DC and I'm all set. How soon can I put in an order?

Re:Wow

[Ex-MislTech]

To plug into the grid you need a Synchronous Inverter.

You are not suppose to dump square wave on the grid either.

Some guerilla solar ppl who do not understand this do it anyways.

The grid uses generators that generate sinewave power.

To connect cleanly and correctly you need a Sinewave based
Synchronous Inverter and that is not cheap.

Also if you live in a heavy lightning storm area then you run
the risk of your huge investment going up in smoke by being
attached to the grid.

Your best bet is to get off the grid.

Some ppl do it a little at a time by converting all their lights
to LED lighting and have wind and or solar charging some used
forklift batteries that are stored outside in a fireproof box.

forklift batteries are not the best, but used ones are cheaper
by a huge amount than the very best made new for this purpose.

Over time as they get more of their own power made they can
move circuits over to the off grid system.

The killers are central heat and air, electric dryer, fridge,
hair dryers, vacuums, electric ovens, and microwaves.

Re:Wow

[Firethorn]

Most(and I mean MOST), grid-tie systems shut off when the grid power goes out. This is to protect the system and line workers.

For an extra $1k or so you can have a system that works more like an automatic transfer switch, when the main power goes out, the system will automatically power circuits depending on priority and available power. IE put the dryer last, the computer first. ;)

http://www.oasismontana.com/Xantrex-xw-inverter.html - but I'd want to read the documentation carefully before getting one. It's listed as working in either mode, but not both at the same time, or being able to switch automatically.

Re:Wow

[Firethorn]

Found a better one, lists that capability as standard:

http://www.infinigi.com/beacon-power-m5-inverter-5-kw-gridtied-battery-backup-p-104.html?ref=100

Only 5kw though. At $5k, it'd take 4 years of eliminating my electric bill to pay for the inverter alone, much less solar cells, wind turbine, or install.

By my back of hand figuring on the basis of using ~1000kwh a month, I'd need a 4-5kw inverter anyways.
1000kwh/month = 33kwh/day, 1.4 kwh/hour, 1400 watts average load. Times 3 for rough guess on usable/production periods vs max, 4.2kw minimum load needed. BTW, my water heater/stove/dryer are all electric, but heat is propane. I pay ~.10 cents per kwh, decreasing if I use a lot.

TCO

[phantomfive]

Here's something for you, that I didn't realize: apparently it costs MORE to install and set up a set of solar panels on your home than it does to manufacture them. It made me think, "wow, I'm going to install those myself for half the price!" but attaching stuff like that to the power grid is probably not a DIY project. And it isn't just a day labor job either. It's going to take a trained electrician, at $30-$60 an hour putting that stuff in.

So, their goal is to get the cost of manufacturing down to about 60-70 cents a watt, and the cost of installation down to $1 a watt. I didn't realize the hidden cost of installation was so high.

Tellurium

[wiredlogic]

Volume production will outstrip the world Tellurium supply in the near future so this isn't going to be a cost effective technology for long.

Re:Why $1 per watt is important

[shermo]

You mentioned that solar only works half the time, but you seemed to dismiss it as irrelevant.

Total capacity is a very misleading metric to measure power stations by, and is meaningless without information about it's utilization.

Obviously solar panels only generate when the sun is shining, just like wind plants only generate when the wind is blowing. A very good wind farm will get 40% utilization. A very good solar farm will get maybe 25% utilization.

And that's not the whole story either. It's also interesting to look at the demand weighted generation. This is a way of accounting for generation being more useful when demand is higher. In general, solar panels have a higher DWG in hot climates (air-con when sun is shining), and a lower DWG in cold climates (heating when sun isn't).

Current installed prices are about $5/Wp, and I'd be suprised to see %1/Wp before 2015.

Re:thats nice

[baileydau]

Tellurium is extremely rare, one of the nine rarest metallic elements on Earth. It is in the same chemical family as oxygen, sulfur, selenium, and polonium (the chalcogens).

In a previous life I worked as a Metallurgist for a copper refinery. One project I worked on was refining / recovery of Tellurium from our anode slimes. From a technical point of view it wasn't difficult to recover. I was able to easily get > 99.96% purity in the lab.

At the time we had around 10 Tonnes / year of Tellurium in our slimes. Considering that the total world production is < 40 Tonnes, that was significant.

Even at > $100,000 / tonne, it just wasn't worth our while to go to the trouble of recovering it.

In the end we sold our slimes 'raw' and took the price hit for the impurities (included Copper and Tellurium)

It's not expensive, because no-one's using it. But if you start mass-producing anything with tellurium in it that cheapness will disappear sooner than you can say "exhausted supply".

It would probably be a very good investment to buy (right now) a ton or so of tellurium and put in your basement. Perhaps a bit unorthodox an investment, but before 20 years pass it will be many times more valuable than gold or platinum. Right now it costs between $70 and $100 per pound. You can reasonably expect that to become at least several thousand within the next ten years.

That price is still > $200,000 / Tonne

If the demand (and then price) really do go up, many of the refineries (or the precious metals companies that purchase their slimes) may be induced to actually recover their Tellurium, thus increasing supply.

NB. The major use of Tellurium is currently as a free machining agent in steel (it makes it easier to drill / machine)