2014 EIA solar data

Hi pleppik

Good find mate, it will be cool if you let us know of the response to your question, cheers

Perhaps the off grid and consumed on site grid tie are not included, because there isn't a
way to measure & gather that info. Only a fraction of my generation actually gets to the grid.
Bruce Roe

Here's the response I got from the EIA:

So the answer is that the official statistics only include utility-scale solar power plants (1MW and above), and do not include any generation from net-metered installations. So no residential solar, community solar gardens, or even commercial solar installations are included unless they are both over 1MW and sell power directly to the utility.

All the statistics I've seen show that there's a substantial amount of PV capacity that's in residential and smaller commercial installations. So it's likely that the official statistics are understating the amount of solar power being generated and used in the U.S. by a large margin.

I'm going to see if I can dig up some credible statistics that would let me estimate how much of our electricity is really coming from solar. EIA does have some statistics for net metering, but they're from 2013 and only count capacity not production. I don't think I'll try to tackle off-grid, though: you have to draw the line somewhere, and trying to find statistics on every solar-powered crosswalk sign and wireless repeater may be a rabbit hole too far even for me.

So far, so good. Looks to me like that data is not much use in finding how much of the electricity requirements in the U.S. at least are met by residential installations of the type talked about on this forum.

Plus a lot of the off-gridders don't want to be found, that's why they went off-grid.

What about all the people that just turned off all their lights. Shouldn't they get credit for lowering the CO2 emissions.

Sure. It's just a lot harder to track than MW-scale power plants.

The energy intensity of our economy has gone down a lot since the 1970's, meaning that we're using much less energy per dollar of inflation-adjusted GDP. That's good all around. http://www.eia.gov/todayinenergy/detail.cfm?id=10191

With a little digging, I think I have enough to at least make some estimates on how much power all our solar installations are contributing to the total. I'm not claiming great scientific precision here, but I think this is at least in the ballpark.

Executive Summary: My best guess is that in 2014, net-metered PV systems generated 0.2% of U.S. electricity usage, up from 0.1% in 2013. This makes the total solar power generation 0.65% of electricity usage in 2014, and 0.33% in 2013.

How I got these numbers: Digging around in the EIA database, I found that the EIA publishes annual statistics for the installed capacity of net-metered PV, as well as the installed capacity of utility PV installations. Unfortunately, the available statistics for these numbers are older than for the generation numbers I already mentioned. The most recent data for net metering systems is from 2013, and the most recent data for utility-scale solar capacity is from 2012. So I had to do some extrapolation and make some assumptions.

Production Factor: In 2012 (the most recent year where I could get both capacity and production data), utility solar capacity was 3,170 MW and production was 4,327 GWh. So the average production factor in 2012 for utility solar was 1.36 GWh/MW.

2013 Net Metering Production: In 2013, the EIA data shows a total of 5,101 MW of net-metered PV capacity installed. I made the assumption that these smaller systems are likely to be less optimal than a utility-scale installation (i.e. not as well sited, less maintained, etc.), so I assumed that net metered systems will have a production factor only 0.6 as good as a utility system. 0.6 is a total wild guess, and I intentionally chose it to be on the low side. So based on that, in 2013 the 5,101 MW of net-metered capacity would have generated 4,178 GWh, which is 0.1027% of U.S. consumption.

2014 Net Metering Production: Net metering capacity for 2014 isn't available yet, so I assumed that non-utility PV grew at the same rate as the published utility PV production (95% from 2013). That would give 8,166 GWh of net-metered production in 2014, or 0.1995% of U.S. consumption.

So there you go; the rest is just adding the numbers together and rounding things off a little.

Overall solar is still a very small percentage of US power generation even if it keeps doubling the next 10 years which I doubt.

Well, if solar power doubles each year for the next 10 years, in 2024 photovoltaic power produced in the U.S. will be somewhere around 663% of consumption. So, yeah, that does sound farfetched.

Shouldn't some of those MWh be GWh ? Just sayin'.

Oops, fixed.

But really, what's a factor of a thousand between friends?

So there you go, like you wrote, just adding numbers together and rounding things off a little.