Ok, looks like my source was wrong on the propellents. I guess that leads to the question of "how fast can you get another saturn V on the pad" and "how land can you make the life support last?"
As for "how long can the life support last" question...
Probably the first limiting consumable would be Lithium Hydroxide canisters for CO2 scrubbing. Those wouldn't last long. But, since there's plenty of extra oxygen, what about say, letting the CO2 build up to the maximum possible tolerable level, have the crew get in their suits, depressurize the cabin, then repressurize with fresh oxygen from the tanks. That's what they did for repeated EVA's on the LM, and it only took 3-4 pounds of O2, so it shouldn't take much more then that on the CM. They actually did depressurize the CM for EVA's on the last few missions, so it could be done. After Apollo 13, there was also an extra O2 tank, so oxygen would be in a surplus.
Then there's power. Shutting down 2 of the 3 fuel cells is obvious, and powering down anything you can as well. Did the fuel cells produce power at fixed rate, and consume H2 and O2 at a fixed rate, or could they be set to produce less power, and consume less? Since the fuel cells produce an excess of water, I would guess that one fuel cell would be able to provide enough water for the crew to drink. Did the CSM use water for cooling electronics?
On the 'after Apollo 13' missions, the SM had a "5-10 hour battery." I guess that means enough for all power needs, so how long would it power a two-way radio, and the occasional O2 tank heater (see above)?
With food, they'll probably die of something else before they'll die of starvation. They may be emaciated, but if the other consumables can be made to last long enough, they'll be alive.
Anybody know the answer to "minimum time to get a Saturn V set up on the pad" question?"
This actually seems like an interesting research question.
