While installed wind capacity has nearly tripled in the US over the last four years, there still remains zero installed capacity in Connecticut. For those who are interested, the 50GW of installed capacity represents approximately 12.5GW of actual capacity given generous assumptions about actual output. This is about the size of 10 large coal fired power plants. You should do some research to ask yourselves how many coal-fired power-plants have actually been taken offline as a direct result of wind substituting for it.
That’s a lot of power, WC, at how much per kilowatt hour?
Note that this reader is lazy, leaving all the sweat research to WC.
I am less concerned about coal than some, at least crediting them with keeping Adirondack lakes clear, or is it the peat?
But I thought that the EPA was about to impose new standards upon several (15?) coal-fired plants in Texas, and I think I read about that at the Sierra Club site. End coal and we had better put up a lot of more windmills. How much per kilowatt hour FOB the PJM Western Hub?
Had an interesting conversation this weekend with my buddy who works in energy. Fracking has brought the price of natural gas down from the $10+ range to under $3 per thou cubic feet. This is insane. And awesome.
Points he made:
1. Coal plants take 8+ hours to warm up, so they, along with nuclear, are almost exclusively baseline power providers. They’re cheap, but cannot be used to address spikes/peak demand.
2. Natural gas comes on by flipping a switch (it’s like a jet engine that has a generator attached), so it is ideal for filling in the gaps when demand spikes.
3. Wind and solar are only really useful when paired with natural gas, because a) they’re not baseline generators (too unreliable) and b) they’re not good spot generators to address peak demand (peak use is typically in the evening, when the sun is not shining and wind is inconsistent).
4. When solar/wind are paired with coal plants, they provide little or no net benefit, because you have to keep burning coal just in case of clouds, wind dying, etc. This (plus their flight from nuclear) is partly why European power prices are so high.
5. Subsidies on wind in West Texas were so large a couple of years ago, it was actually profitable for wind farms to PAY THE GRID to take their power up to $37 per megawatt hour. Seriously.
6. Wind and solar won’t be viable until we figure out how to store power more efficiently so we can use it when we need it.
Just thought this was interesting–natural gas and solar/wind are strange bedfellows…