That sort of increase smells of leaks
Ha Ha
Channel 5 item on Beer now on.
A fete? My last bagger party offer was Las Vegas. Have you a casino down there?
£2. 87 next peak.
One thing about the 5 years research is
Have they not already graphed the P1V1T1 relationships and do they not already have it profiled from a chart?
$76.3
132p at the pumps.
and rising
Haven't seen her for decades! No this Randy is a hairy a****d rigger in Tanz. If he finds Helium in bundles I'll be his b*tch forever!
Wakey , wakey Randy! Work to be done!
We're 80 metres from getting things done
We're matey metres from getting things done
We're 90 metres from getting things done
Anyone's guess
Wonder if we have hit a sweet spot on 2d data? It happens.
So right there! 95% loss, already a 10 bagger, but a way to go to be profitable.
One would be, wouldn't one!
Wil hit £2. 87
Sorry from um
V1*P1/T1 = V2*P2/T2
I just abut remember this formula fui.
V1*P2/T1 = W2*P2/T2 Where T is in Degrees Kelvin.
From that you could work out any of the variables if you knew the other 5.
Hijacking your thread.
Having pondered everything said and DM's mention of Boyle's Law (except he mentioned temperature), I would like to provide a note of caution concerning % announcements.
The pressure goes up the further down you travel and visa versa. E. G. Airplanes and mines. In the mine the column of Air above you is greater the deeper you go. So at the bottom of a drill hole the column of Air is greater and the pressure is greater than at the surface. However, that can only be so at constant temperature. I don't know what temperature changes occurs at depth compared to the surface, but I suggest it is considerable. Therefore, working out the number of Helium molecules in an environment at rising pressure is not easy. Temperature will inversely effect this number of molecules too. Lower temperature will result in gas molecules being closer together, taking up less room, or conversely contain more of them per fixed volume. Pressure increase has the same effect. That is a difficult position to assess when attempting to ascertain He concentrations.
Imagine also you are climbing Everest. As you go up the air gets thinner (opposite to the mine or drill hole). However the % mix of Oxygen to Nitrogen remains the same. Hence you can breathe, but have to do more work as there are less Oxygen molecules in each intake of breath.
Conversely, down the hole it is more molecules, but the % stay the same.
So when you are considering a percentage of Helium in Nitrogen at the bottom of the hole, it will probably be the same as at the top, unless you encounter new sources of He from below seeping into the hole. Measuring the % of Helium does not tell you much without knowing its pressure and temperature to see how many molecules of it are gathering.
Well you force me to enter now you have my bank pin, so I'm sticking with my Swift counterparty pin 1090m
Running a sweepstake on site for which one of you is closest to drill depth.
Boyle's law is for closed systems, but I think you knew that as Mech Eng?
Whether vegetables or Helium, I have one answer
'I think the answer lies in the soil'.
You have to be old like me to remember that one!
I expect a thorough analysis of what is down hole at TD and not before. Backed by science.