Thats almost 200 of us that are adventurous. We like this because we have that bit of thrill inside us wanting to know whats down something that deep. Stay curious, its healthy.
I’m curious why there wasn’t any steam rising, there was water and the scientists stated that the temperatures at the bottom exceeded 350F. Unless the steam would rise and condense before having a chance to reach higher elevations.
It is used to pump concrete down into an underground Mine to fill in areas where they have mined out. Water was leaking into it heavily which was diluting their concrete. They wanted to know where it was entering in order to know where to go to fix it.
The deeper you go the higher is the water pressure. The best soution is to line the hole with a steel pipe to drop the concrete and pump the water out at the bottom.
I suppose in that situation I would see if it would be possible to lower a submersible pump into the hole to pump it down. I would attached my camera to the discharge above the pump by about 20 feet and pump down in sections so I would see where water squirts in. Continue this until I don't see any additional in feeds.
I am not a drilling expert by any measure, but I believe for an application with such a wide diameter you would require a Raisebor drill. A conventional residential well drill could be used to drill a pilot hole, but I believe you would require a Raisebor to top ream the hole out to that diameter. A residential well of depths around 150ft costs something in the range of 8000 Canadian dollars, a Raisebor would cost substantially more.
@@calvinburgos8236 What is it you expect to see? Go 600 km deep to the transition zone between inner and outer mantle and it's at 1900k which will just look like a bright orange glow in all directions unless you have a very bright light source and very short exposure time. The pressure is just stupid at around 20 GPa and the hole will close immediately due to a rock burst or the plastic deformation of the mantle unless you have some dense fluid propping the hole open. The most interesting data would be from the cuttings; they'd tell you what kind of minerals you've hit and what trace elements are in there. Go less extreme like the Kola super deep borehole and it's just some rocks; they were aiming for the outer mantle but never got there. The mantle is different kinds of rocks which are mostly made of denser silicate rocks like olivine and pyroxene and the crust is mostly made of less dense rocks floating ontop of the mantle like quartz, fieldspar and amphibole; but there's olivine and pyroxene at the surface too, just less of it. Mantle material has come up to the surface at times and you can just go look and see what it is. That's no secret.
April 2021 myself... Really kind of strange that the camera was so far down, yet you can hear the voice of camera person. Also vehicles overhead or near the hole.
Every bore if not in continuous use should be permanently closed or it should have some 3 inch medal pointing in all directions within bore so if someone fall accidently they can get out safely
I will actually be re-inspecting this hole tomorrow. I have upgraded to an HD video camera now, I'll post what I find here. I believe the company has put a casing and grouted it in place given the amount of water coming in.
awww so so much thanks ,americans doing so many bast reserch things which gave great knowledge ,i am so happy that these people doing documentary film which contains great knowledge
where is.this..?i feel sorry for this..there are some.very old but speritual method to bring ...water back and rain as.well..You should try that kind of method...
376 ft till soght of water Wow! On a side note... am I the only one who was almost on tue verge of suffering panic attacks watching this... Imagining they were hanging on the end of that rope...
bala raja wireline conveyed cameras work in water but the water has to be clean as can be which is very unlikely, I've don't a half dozen of them and only 1 had really gone to plan
6:05 , 8:09 missed those Why not build a cap over the backside of the camera so that all the water falling on it from above will be forced to the sides of the camera and not just run down the camera, makes things easier to see
It was interesting to see for me as I am used to seeing wide aquifers with a lot more water at only relatively shallow depths in softer shale country. Thanks for sharing.
