And we're dumping the heat into the atmosphere which also doesnt really need additional heating.
I acknowledge these sensibilities are mostly, well, wrong. That there are just so many orders of magnitude difference. But the doubt is still there too.
The scale of energy in the geothermal layers we can reach dwarfs our consumption and will take time greater than human existence to date to alter in a manner that impacts the orbital scale geophysics.
> And we're dumping the heat into the atmosphere which also doesnt really need additional heating.
The crux of the climate issue is our increase in the heat insulation properties of the atmosphere (now mainly via CO2, more and more by increased methane and water vapor) not so much the "heat" we output.
Vast amounts of energy arrive on the surface via the sun, most of this radiates away .. the increasing amount of "human activity related blanket" has been the cause of change in recent (few thousand years) climate stability.
Isn’t this thinking the type of naïveté that got us to the current situation in the first place? The CO2 in our atmosphere increased ~0.01% (absolute percentage of atmosphere) over the last 4 decades.
Scientists 4 decades ago explained away any concerns in the exact same way you did.
Granted, we need all hands on deck (including experiments like this) to reach our decarbonization targets, but let’s not downplay the unknown tail risks involved.
You're confusing "O&G | Koch Bro's stooges" with "Scientists".
The notion of human activity affecting the atmosphere dates back more than a century, the real concern that industrial activity was having a detrimental effect became real in the 1970s .. and the pro Tobacco and pro Oil and Gas lobbying dates back to the same core PR agencies using the same tired "person in a white coat" arguments.
The World Meteorological Organization (WMO) raised human activity affecting climate as a real and present danger in the mid to late 1970s, the International Panel on Climate Change was established in 1988, etc.
Scientists had a firm grasp of the problem four decades ago and understood that the heat capacity of CO2 exceeded that of other gases .. they understood the relative scales and how little it took to tip a balance.
In a similar manner geophysicts understand the scale of global energy held in rotation, in internal heat, in GMF, and the history of crustal fission reactors versus core fission et al.
2) you’re thinking of limits on vacuum suction (aka ‘sucking’ water up), which yes is very limited. Deep bores of any kind are almost always submerged pumps, and they don’t have this issue (‘pushing’ water up). Typically there are strings of submerged pumps in the borehole for deeper wells.
For geothermal, usually they can just push cooler water down, and don’t even need to pump it back up - the heat expansion/steam pressurizes everything and does the work for them, as it’s a closed aquifer.
Well, no. The problems you see on your article really doesn't apply to their situation. (And it's a really small limit on the article, if it applied, we wouldn't be able to extract most of our oil or even water from some aquifers.)
But they do get very very hot where the drilling is done (and by design for geothermal, they want to reach hot geology).
This heat melts the drill bit quickly.
It would be like the change wrought by the telephone + car + radio kind of thing - just unthinkable.
I don't think people from the 1890's really imagined what things would be like in 1990.
That said, it may be that those things won't happen and we do have an idea of the 2090's because it's not that-that much different than today.
No, but seriously, good luck to these guys. Someone's got to be the first to succeed at making geothermal power scalable/practical, let's hope it's them so we don't have to wait another century.
