I've found a mixed approach works best, given the dev inventory I run:
- a good supply of passive SMT books from the usual suppliers (mainly the "notebook" style ones with cut tape in the pages)
- various larger SMT & PTH parts, connectors, switches, etc in modular parts boxes (Eclipse Tools #900-041 mainly; larger in #900-039). These boxes stack nicely, are adjustable, are pretty cheap, and can be found at Microcenter (though ordering direct from Eclipse Tools is cheaper in quantity). I keep things in them in ESD or small zip bags, with those labeled as they get allocated. I try to keep each box assigned to a type of component then label the front of them ("Toggle Switches", "Motor+Stepper Ctrl", "Gaskets & O-Rings").
- even larger parts end up in plastic boxes from IRIS or IKEA, in 3 standardized sizes.
Key to this plan was buying bins in bulk (qty 10 or 20 pcs minimum) since they store well empty, can be used as replacements when lids/bases break, and inventory always tends to grow. Plus, wire shelving is easy when everything is standardized... "buy once, cry once" and you can't count on the same cheap bin being available in 10 years when current extras are out.
Starting to look into setting up a database tool to keep track of stock - partsbox, inventree, google form+sheet, ??? - but not there yet.
> ...but at that time we were mostly worried about whether the reactor was still working. That is, was it generating short-lived radioactive isotopes...
> ...the most precise information about the state of the reactor was gathered from the ratio of short-lived and long-lived isotopes of iodium 134 and 131. Then, by making radiochemistry measurements quite quickly we established that no short-lived iodium isotopes were being produced and hence the reactor was not operational and was in sub-critical state.
I wonder where and how they were able to do the radiochemical measurements so quickly - did the facility have that sort of capability on-site, or were samples repeatedly flown to a research institute that had the appropriate gamma spectroscopy equipment to analyze?
I wonder to what extent nuclear would be an option, given the relative abundance of previously-enchriched fuel now sitting around as waste, and an post-apocalyptic willingness to engage in high-risk, high-reward behavior... I suspect that there would be people and places that would be OK with the impacts of leaky, poorly shielded nuclear piles if it meant seemingly-endless sources of high heat independent of the need for piles of charcoal.
At the very least, in the right hands that idea could probably make for an interesting short story.
After a recent discussion with our home heating oil provider, seeing this post got me thinking - could a similar system be applied to the exhaust of a household furnace that is burning No. 2 heating oil?
A typical household in my part of the country runs around 1000 gallons of oil per year (which I realize is less than 10% of a typical long-haul truck annual usage) but for larger sites like greenhouses/breweries/etc that have both heating and CO2 needs, I could see there being significant gains to having an on-site capture system.
Even at the household side, it would be great to capture this tailpipe waste as a marketable resource... with the benefits of grid power and less concern over the size of storage/compression/regen equipment, I could imagine that the break-even point might be favorable.
I don't know if I'd agree its something you can't make useful, but trying to use inflation as a means of macroeconomic policy - rather than an indicator of the success/health of the overall economy - seems utterly dangerous.
I heard an interesting podcast a little while back that conjectured the typical way to get inflation going (so-called "helicopter money" to the spending population) is far and away the least predictable way to do things. Specifically, the speaker argued that compared to large banks and investing entities, people might do things like pay off debt or save the cash for a rainy day... neither of which are inflationary.
That isn't to say that handing out wads of cash wouldn't eventually lead to inflation, but that the systemic lag and second-/third-order effects might make the process so unpredictable that by the time inflation begins to tick up, the central bank would have no way to provide effective control.
- a good supply of passive SMT books from the usual suppliers (mainly the "notebook" style ones with cut tape in the pages)
- various larger SMT & PTH parts, connectors, switches, etc in modular parts boxes (Eclipse Tools #900-041 mainly; larger in #900-039). These boxes stack nicely, are adjustable, are pretty cheap, and can be found at Microcenter (though ordering direct from Eclipse Tools is cheaper in quantity). I keep things in them in ESD or small zip bags, with those labeled as they get allocated. I try to keep each box assigned to a type of component then label the front of them ("Toggle Switches", "Motor+Stepper Ctrl", "Gaskets & O-Rings").
- even larger parts end up in plastic boxes from IRIS or IKEA, in 3 standardized sizes.
Key to this plan was buying bins in bulk (qty 10 or 20 pcs minimum) since they store well empty, can be used as replacements when lids/bases break, and inventory always tends to grow. Plus, wire shelving is easy when everything is standardized... "buy once, cry once" and you can't count on the same cheap bin being available in 10 years when current extras are out.
Starting to look into setting up a database tool to keep track of stock - partsbox, inventree, google form+sheet, ??? - but not there yet.