I don't think the "appeal to authority" path is one you wish to travel. "Navy nukes" are good people, but even the officer graduates of their nuclear program take only a couple years of coursework -- equivalent to an associates degree in engineering. I may be wrong, but I believe the enlisted school's only a few months long, straight out of high school. All those graphs, charts, and tables of figures you reference by rote -- they're calculated by the physicists.
Not that this is germane. The nice thing about facts is that they remain true, whether expressed by a Nobel laureate or a nine-year old child. So let's discuss facts, eh?
And you would be wrong again. The bulk of loose Co-60 detritus is from the stellite hardfacing alloys -- not just from pump bearings, but valve seats, control rod assemblies, etc. But all nickel-rich steels have substantial amounts of cobalt in them, and are thus subject to neutron activation generating Co-60.
Co-60 is an issue for nuclear plant operators. It's small both by volume and by total curies, and decays quickly. It's not a nuclear waste concern for the general public.
Sorry I didn't have time to reply and correct you sooner. Been travelling.
Lets get to the facts.
As far as I know, I'm the only actual nuke worker on the forum. Reading about physics and postulating theoriecticals at community college isn't the same as actually having to learn classified reactor physics, shim rods on a real reactor on a daily basis, calculate said rod shims for startups and fast recovery from an emergency scram, ect. Not to mention having to calculate shielding required for maintenance operations inside the reactor compartment, and actually having to pull said equipment apart for maintenance and repair. Yes, some people dream theory, and others live it.
As far as navy nukes. They are the nuclear gods. I understand that's why there is jealousy over the legacy of Rickover as we control all aspects of regulation. Why is that? It's because we have been doing it safely for about three quarters of a century.
Naval nuke officers get the same science degrees as anyone else, but then they have two more years of school at NNPTC, another 6 months qualifiying on a low power training reactor (which is a real reactor plant), then up to two more years to qualify as a plant watch officer. By about 4 years at sea, they are able to take the engineer's exam offered by the department of energy and will become plant engineers over up to two propulsion plants at once. That's a lot of training, and that's why they get the six figure annual bonuses to stay on.
As far as enlisted, the navy nukes are the top 0.01% of the military. The ET nukes are the top 10% of the nukes, and those are the ones that do maintenance on reactor control systems and are also the ones that qualify to stand reactor operator. These are the true gods that change matter into energy. Everyone else on the ship calls them wizards, and rightly so. Yes you can start that journey right out of high school, it can take up to four years of training before a rear admiral allows you to touch those rod and pump controls. Nuclear A, power, and prototype schools were designed by M.I.T. It is the most stressful learning a human can experience.
And if you decide to grace our presence in the plant one day I can show you where the Cobalt-60 comes from, where it accumulates, and how to protect yourself from it. It is the single most dangerous particulate and accounts for nearly all of our radiation exposure when we do maintenance.
Have a nice day.
Tell that to a navy nuke and you will be laughed out of the room.
