Windmills can be surprisingly expensive. https://www.eia.gov/analysis/studies/powerplants/capitalcost... is not up-to-date, but I think the windmill prices in it have changed a lot less than the solar prices; the 200 MW onshore project they price out there comes to US$1265/kW (US$1.27/W), of which something like 61% is the windmills themselves. Low-cost photovoltaic solar modules currently cost €0.055/W (US$0.065/W), lower by more than an order of magnitude https://www.solarserver.de/photovoltaik-preis-pv-modul-preis....
So, at equal cost, the alternative to a megawatt of windmills may not be a megawatt of solar panels, but 10 megawatts of solar panels. And that can compensate for their lower capacity factor.
I don't think people are building gas-powered data centers in the US. There's a data center crunch in the US because people aren't building them because they can't get the power because of the US's anti-renewable-energy policies.
Even the EIA-commissioned study I linked doesn't include that, but it is a potentially significant cost. If we take the median price of US$4702 per Texas "acre" from https://texasfarmcredit.com/resources/texas-land-pricing-gui... it works out to US$1.16/m². At 30° latitude your panels provide about 0.86 square meters of panel per square meter of land, or more like 0.3 with trackers, so the land price is on the order of US$3/m². A square meter is nominally a kilowatt of sunlight, so that's US$0.003/W of sunlight, but mainstream panels are usually only around 21% efficient, so it's more like US$0.015/Wp. Historically this has been insignificant but may no longer be with mainstream panels costing only US$0.10/Wp.
Desert land, lakes, and harbors are cheaper, so we should expect to see more panels there instead of on potentially arable land.
Sorry, that's Texas farmland "acres". An "acre" is a medieval unit of measure defined as one "chain" by one "furlong", the area a single man can plow in a day with a team of oxen. Although people have been plowing with horses since the 12th century, the "acre" is still in use in Texas, where it is roughly equivalent to 0.405 hectares (4050m² in SI units). In Texas, latitude ≈30°, it amounts to roughly a megawatt of solar energy (3 megawatts peak) before accounting for panel inefficiency.
Also when I said "US$0.10/Wp" I was wrong. I'm in the lazy habit of rounding US$1 = €1, but that's a significant error now. The correct price of €0.100/Wp for mainstream solar modules is more accurately US$0.117/Wp.
> An "acre" is a medieval unit of measure defined as one "chain" by one "furlong", the area a single man can plow in a day with a team of oxen. Although people have been plowing with horses since the 12th century, the "acre" is still in use in Texas...
1) People plowed with oxen well into the 20th century. Most places, only fancy people could afford horses at least into the 17th-18th century. So not so totally-medieval.
2) The acre is used in all kinds of backwards (Anglophone) places, not only Texas. All of the USA for starters, probably Australia, maybe the UK... Heck, I remember my elders using the (roughly) corresponding "tunnland" in daily conversation in Sweden as late as the 1970s. (But yeah, they were really rather elderly.)
3) Aren't you the guy who should call that "the 0012th century"? (Sorry if I'm getting you mixed up with someone else.)
So, at equal cost, the alternative to a megawatt of windmills may not be a megawatt of solar panels, but 10 megawatts of solar panels. And that can compensate for their lower capacity factor.
I don't think people are building gas-powered data centers in the US. There's a data center crunch in the US because people aren't building them because they can't get the power because of the US's anti-renewable-energy policies.