Replacing iron pipe / Non-filling radiator

What size is your boiler? Did you run a heat load calc? If itn is a pumped system, you may not need 1-1/2" pipe.

1" copper pipe for example can move 8 gpm or more, so 80,000 btu/hr minimum.

The higherst point in the system? The top of the uppermost radiator, what is that distance form the expansion tank?

The dimension X .433. Then add 5 psi to that.

Example top radiator 18' above the boiler 18 X .433 =7.75 + 5 = 12.7

So 12- 15 psi should be adequate.

With large diameter pipe you need a lot of flow to purge air out, you may need to bypass the fill valve, or connect a hose to you water supply to get a good flush and purge

you can use oxygen barrier pex. copper can be easier to work with in larger sizes and sweated copper can cost less if you need to use a lot of fittings. no reason not to mix and match. can use black iron too.

the sizing comes down to how much heat you have to move and the max flow that will be quiet and won't erode the pipe moving that amount of heat. you figure out the flow a section of pipe needs from the the amount of heat it needs t move then you find what size pipe can handle that flow. you may need a way to balance it if you are mixing large gravity pipes and minimum sized pipes. that usually can be done with the radiator valves.

The size pipe really has to do with the size of the radiator and` the heat load of the room it is in. In some, many cases 1/2" pex is adequate. It can deliver 15,000 btu/hr

Here is a conservative pipe flow chart. Note the 1" pex is quite a bit less flow than 1" copper due to ID.

A home run with 1/2 pex to each radiator might be an option. Locate a manifold in a 2nd floor closet, feed it with 1" pex. Each radiator could be. zone with manifold actuators or TRVs at the radiators.

An example with a ∆P circulator.

Useful info would be how hot do you need to supply the radiators on the coldest day. Backing down the SWT or using outdoor reset will help comfort and maximize boiler efficiency.

What I would recommend with that third floor radiator is bumping up the pressure a few pounds , I think you have a broken gauge ..

Hope this helps

An example of what happens to dynamic pressure ( pump spinning) in a system with either low fill, or a circ develop in high pressure differential.

So in some cases the upper portion of the system could be running at negative pressure. The second slide shows a system with low fill pressure 5 static, notice - pressure starting just past 1/2 way around the loop.

These are just examples, you would plot your exact piping path to determine where you could go sub-atmospheric. Or gauge a few locations.

Any auto air vents at that location would allow air in, instead of out!

A gauge at that highest radiator should read at less 5 psi static. And ideally not drop, maybe increase when the circ runs. Pumping Away allows that to happen.