Happy to help.
1) Sorry for the confusion on the 53A, it is not attached to a tracking system. It is simply dead headed with a predetermined amount of pressure (through a regulator) and kept constant. A 53A will not be able to track up and down with a varying stuffing box pressure. For example, the stuffing box pressure may vary between 150-200 psi, but the N2 pressure will stay constant above the max pressure the box will see, so 220-230 psi.
2) Your correct about the 53A lack of a pressure relief valve. Ill describe the 53A in more detail: The idea behind a 53A is that there is no need for lots of extra piping and support for a set of seals that may not be capable of receiving an on-sight flush of clean fluid. Instead of running a clean fluid all over the plant, a 53A allows a self contained pot to be installed at the location of the pumps and then be periodically checked for barrier fluid levels. A 53A pot should always have clean barrier fluid in it at a higher pressure than the process pressure, and therefore (in practice) should never see back flow from the process side and no need to vent.
Now, is that what always happens? No (we don't live in a perfect world). I have seen two primary failure modes for these 53A's. The first is loss of barrier pressure (N2 system goes down or tanks are not recharged). Once pressure is lost, the inboard seal no longer has a higher barrier fluid pressure than the stuffing box, and will begin to run hot on the nasty fluid being pumped. If not caught fast enough (with low pressure alarms or something similar) the inboard seal will fail, back fill and pressurize the clean barrier fluid pot and begin ruining the outboard seal. Not much fun to clean up.
A second failure mode is inboard seal failure over time. This is inevitable and will happen as the seal wears out its life. The barrier fluid will begin to flow more freely into the process and N2 usage will go up as well. This is when equipment should be shut down and seals changed. Unfortunately, many people will simply continue filling the barrier pot with clean fluid more often and dumping more and more barrier fluid into the system. Inevitably the inboard seal will fail totally, and who knows what will happen then (I've seen some crazy stuff). You now have a failed inboard, no clean barrier fluid and N2 fighting the stuffing box fluid along with the outboard seal running in some form or fashion.
3) Again, sorry for the confusion on this one. I focused more on the parts I didn't like about the 53B than the accumulator and bladder (recent bad experience with a modified 53B). There are definitely times when a 53B is the best solution to a problem. It's really just a 53A with a membrane between the N2 and the barrier fluid to prevent gas entrainment. You are correct in your assertion, the bladder is designed to be charged at a higher pressure than the seal will ever see, and if it does see that pressure the entire system should already be shutting down. Same as the 53A, but with the bladder instead of gas directly on the barrier fluid. The failure modes for these can get a lot stranger than a 53A, but they usually fail in similar fashion to a 53A (loss of N2, inboard seal wear).
A final thought: These piping plans are all "standard reference," meaning they can be modified and adjusted to fit your needs. I've seen many different systems modified with Tescom regulators to help with N2 and barrier fluid usage (one of the more common upgrades). They are designed to be a baseline for design, and modified if needed.
Man, I should write a novel.
