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0 pointstoast05y ago0 comments

> It's always confused me how mined lead somehow has more radioactivity. Shouldn't the lead in the ground also have decayed over time?

Looking into this a bit, it seems that the radiation in refined lead isn't coming from the lead ore, but from the other materials used in the smelting process. Old lead would have had time for all those things to decay.

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oh_sigh5y ago

I wonder why manufacturers don't just use filtered atmospheric air in the process to create low-background steel, if it is infact valuable.

chrisbrandow5y ago

Extremely difficult to separate different molecules that differ by only the weight of a single neutron.

ars5y ago

They are using Oxygen, Oxygen can't become radioactive for longer than a few seconds anyway.

All they need to do is filter for pure oxygen, nitrogen is fine as well.

It's really just CO2 that's the problem.

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saagarjha5y ago

Not valuable enough to bother.

nix235y ago

So salvage it from sunken ships is cheaper then?

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garmaine5y ago

How do you suggest filtering by isotope?

gruturo5y ago

As others said, simply separating the CO2 away would mostly get rid of the problem - all non-stable isotopes of Oxygen have a max half life of 122 seconds, but, for the record, isotopic separation is easy when there is a very large difference in atomic weight.

In Uranium's case it's difficult because it's 235/238 = 1.28% (actually way worse - Uranium hexafluoride is used, which adds 114 units, bringing the ratio down to 0.86%)

In Oxygen's case the ratio would be at least 6.6% (15 vs 16).

Most importantly in Uranium you are interested in the tiny amount of U235, while in Oxygen you'd be interested in the huge bulk of O16, O17, O18, which are the stable isotopes. O16 alone is 99.762% of all Oxygen, and you can afford to lose half in your centrifuge if it spares you a few cycles, it's not exactly hard to come by.

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ars5y ago

Just filter for oxygen. Radioactive oxygen doesn't last more than a few seconds.

The issue is contamination with Carbon (CO2). Nitrogen also is not a problem.

TimSchumann5y ago

I mean, there are ways to do this. None of which are remotely cost effective.

number65y ago

Centrifuges

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oh_sigh5y ago

I wonder why manufacturers don't just use filtered atmospheric air in the process to create low-background steel, if it is infact valuable.

chrisbrandow5y ago

Extremely difficult to separate different molecules that differ by only the weight of a single neutron.

ars5y ago

They are using Oxygen, Oxygen can't become radioactive for longer than a few seconds anyway.

All they need to do is filter for pure oxygen, nitrogen is fine as well.

It's really just CO2 that's the problem.

2 more replies

saagarjha5y ago

Not valuable enough to bother.

nix235y ago

So salvage it from sunken ships is cheaper then?

2 more replies

garmaine5y ago

How do you suggest filtering by isotope?

gruturo5y ago

In Uranium's case it's difficult because it's 235/238 = 1.28% (actually way worse - Uranium hexafluoride is used, which adds 114 units, bringing the ratio down to 0.86%)

In Oxygen's case the ratio would be at least 6.6% (15 vs 16).

1 more reply

ars5y ago

Just filter for oxygen. Radioactive oxygen doesn't last more than a few seconds.

The issue is contamination with Carbon (CO2). Nitrogen also is not a problem.

TimSchumann5y ago

I mean, there are ways to do this. None of which are remotely cost effective.

number65y ago

Centrifuges

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