The ripple rating is not directly tied to mictofarads but rather, with the same cap type, to the sheer physical size. The same current, even if having produced same amount of heat (though it will likely be more due to a possible increase in the ESR in smaller one) will increase the temperature more for a smaller mass and less for a larger mass.
There are few factors.
The caps of old were not even rated for ripple, they were huge and any sensible current in old radios or amps didn't matter. Today the same value cap is 10 times smaller. If not less.
People who do not drink, do not smoke, do not eat red meat will one day feel really stupid lying there and dying from nothing.
Yes Mike makes sense. There was so much mass to the original electrolytics thatnthey could dissipate the heat better than the small units today. A mix here of some electronics and physics!
In addition to what Mike said, if you have an early AC radio, such as a Philco 77, 95, 20, or an RCA Radiola 18, these sets used large value paper capacitors for filter capacitors, between 1 and 3 uf, not electrolytic capacitors. When replacing the original filter capacitors it's best to use plastic film capacitors of a similar value, not electrolytics, small value electrolytics can't take the ripple and will inevitably fail regardless of the voltage rating. Fortunately plastic film caps are considerably smaller and more economical in larger values then their paper cap ancestors, so you might as well use them.
Regards
Arran
Inspired by another thread here, i decided to check some output on the power transformer today........ With 115vac going in, im getting 360vac out of both transformer taps to the #80 tube (removed of course)...
Let it run for a bit with all the tubes and pilot lamps a glow and the transformer stayed room temp...
These numbers sound right to anyone whose dealt with a 16b?
Rest assured, the center tap was involved with those readings, i would have been REALLY BUMMED if that was the sum of the ends combined... They seemed a tad low compared to the readings i saw in a video on "the tube".. And after seeing that burnt bakelite block in the circuit, i was a bit concerned.
Definitely feeling more confident about that transformer now... Thanks for the confirmation