@halocline, I do not agree with your latest opinion. This configuration, with two MK5 first stages feeding a Pilot or an Air-1 with two hoses, was the officially recommended setup developed here at Scubapro Italy for diving very deep (75m to 100m and more) in air. At the time (1978) this was common practice here for coral hunters. Also the usage of manifolded twin sets was absolutely standard here, we were using them at the first course (together with the CC pure-oxygen ARO rebreather).
Please note that this is not considered "tech" by us, here in Italy "tech" was starting below 100m and with hypoxic trimix.
In 1978, both I and my friend Marco visited the factory at Casarza Ligure for being trained about servicing SP regs. The Scubapro technician allowed us to service our own MKV (MK5+109) under his guidance. After finished the training, he did show us a special military version of the Pilot with two MK5 first stages and two hoses. Back at home, Marco did purchase the same setup, as he was diving much deeper than me (I almost never exceeded 60m).
I have no photo by hand showing him with this setup, they are probably left in my old house.
What @AfterDark is attempting is to use the same setup with a compact twin set without manifold. I would prefer to have a manifold, keeping the central valve closed, than not having any manifold. I do not see any advantage in removing the manifold, except a very minor reduction of weight. But a manifold with the valve closed really does not change significantly how the system works. Only experimental tests can show how uneven will be the air usage from the two tanks.
But, as said, a certain degree of unbalance can be useful, leaving more pressure in the tank devoted to feeding the BCD. And if the unbalance starts to become excessive, @AfterDark can always close the inline valve of the tank with lower pressure.
I think that this setup with an Air-1 necklaced by two short hoses is a great idea when using an independent twin set.
It removes the need for periodically swapping the regs for keeping the air pressure balanced in the two independent tanks.
Here we are not talking about very deep diving in air, but about normal rec diving at depth of less than 50m, where one single first stage provides enough air flow. So closing one of the two inline valves does affect the performances. And managing the two in line valves is definitely more practical than managing the tank valves behind the head. This is still possible, in case, for example, of a first stage O-ring failure. But in most cases the usage of the inline valves is enough for ensuring to keep a reasonable reserve of air in both tanks.
I would have no problems using such a setup (for rec diving). I simply would add the manifold, for being able to use the air trapped in both tanks in case one of the two first stages fails.
Except on Scubaboard where it is alive and well.
