Solar Energy Compared to Nuclear and Coal

Susan Kraemer of our sister site Cleantechnica recently covered an interesting story, a comparison of solar to nuclear and coal by weight. Take a guess which one wins.

Here’s the intro from Susan.

An interestingly novel way of comparing solar power with nuclear power finds that solar easily bests nuclear. Ken Zweibel has an analysis at The Solar Review, that compares the two kinds of electrical energy, in terms of how much power is packed into each gram of its respective material: cadmium telluride, versus uranium.

He provides data showing that CdTe thin film solar power (using cadmium telluride) takes ten times less PV material to make 1 kilowatt hour of electricity, than nuclear uses of uranium, to make an identical 1 kilowatt hour of electricity.

This is even comparing the two as if solar “used up” each gram of cadmium telluride the way that nuclear power uses up its uranium fuel (pretty much – some can be recycled, theoretically). But of course, solar doesn’t burn up fuel. You can get electricity from the same grams of PV material for at least thirty years, and then the material can be recycled and still used again.

By Zachary Shahan, planetsave.com

Compared Gram for Gram, Solar is Ten Times More Powerful than Nuclear By Susan Kraemer

An interestingly novel way of comparing solar power with nuclear power finds that solar easily bests nuclear. Ken Zweibel has an analysis at The Solar Review, that compares the two kinds of electrical energy, in terms of how much power is packed into each gram of its respective material: cadmium telluride, versus uranium.

He provides data showing that CdTe thin film solar power (using cadmium telluride) takes ten times less PV material to make 1 kilowatt hour of electricity, than nuclear uses of uranium, to make an identical 1 kilowatt hour of electricity.

This is even comparing the two as if solar “used up” each gram of cadmium telluride the way that nuclear power uses up its uranium fuel (pretty much – some can be recycled, theoretically). But of course, solar doesn’t burn up fuel. You can get electricity from the same grams of PV material for at least thirty years, and then the material can be recycled and still used again.

By contrast, the equivalent grams of nuclear uranium must be replaced with newly mined uranium once the first has yielded its energy.

Here’s his math. It takes 12 grams of CdTe to make a one square meter solar thin film module.

“In a year in an average US location, we harvest about 11% x 1750 kWh/m2-yr, or 154 kWh/yr (after accounting for another 20% in losses)” he notes.

So we need 0.08 of a gram per kilowatt hour for one year’s supply of electricity. But that assumes we’ve used up the gram by the end of the year.

“But wait!” he cries. “We don’t burn PV modules, and they don’t die after one year – warranties are about 30 years, so this is really one thirtieth of that, or 2.6 milligrams per kWh”.

So, compared with nuclear, solar packs a punch: using one-tenth as much material to make the same power.

But check out the comparison to coal. According to his calculations, even assuming just thirty years use, then tossing the solar, the thin film photovoltaic material uses just five millionths of the weight of coal needed to make the same kilowatt hour of electricity.

“Compared to coal, of course, the numbers are out of this world. These differences in resource needs bear on the ultimate sustainability of the PV in comparison to other more resource-intense energy technologies”.

Indeed. Solar looks to provide us with not just a cleaner, safer and healthier form of electricity, but also, one that is much more sustainably mined. It takes just a fraction of the stuff from the earth that coal or nuclear takes.

cleantechnica.com/2010/12/23/compared-gram-for-gram-solar-is-ten-times-more-powerful-than-nuclear/