I'm not misrepresenting what is being discussed.

Svyolo writes:

This is a comparison of the benefits of the bendix, with the "after the pump" modifier, with the conclusion that there is no reason not to, but that "after the pump stuff" makes them completely different systems.

At any rate, I think I've "helped" enough... back to building my own airplane.

I don't see the high wing thing as a material advantage, yes it's better than suction but only the pressure difference is not material compared to the massive pressure your proposed recirc-SDS system needs to operate - I understand they need about 40 to 50 psi?

Some relevant facts:
1. Bendix FI runs continuously at just 3 or 4 psi.
2. Gravity feed in a Bearhawk will not run a Bendix, not even close, thus gravity head post losses is much less than 3 psi.

Yeah it’s only material on the pump inlet side with the concern of “heated” recirc fuel being subjected to negative relative pressures. ”Heated” because with proper layout heat from the engine isn’t allowed back, hence the focus on how much the pump will heat fuel itself, which does need to be quantified. SDS specs 45-50 psi on an adjustable regulator. Minimum static head pressure in a 4-Place was like 1.15 psi back of the napkin.

I believe EFII's and AFP's boost pumps put out 30 psi, non adjustable (no MAP reference, ATMO only) I thought they both claimed that is about 5 psi greater the the engine pump. Does the servo drop the pressure to 3 or 4? I was trying to figure out why the divider was so complicated. I never found an explanation, but it looks like the valve with the spring and diagram might also act to smooth out pressure variations. Just a guess.

The 1 psi of gravity pressure won't run the system, but as long as it can gravity feed faster than the pump is feeding, it should keep a slight positive pressure at the inlet. That is much better than several PSI of suction at the face of the pump. Much less chance of vapors coming out of suspension. I didn't realize why SDS and EFI don't recommend gascolators. I believe it is because they have a small pressure drop, and create some turbulence internally, both of which can cause vapors to form. But that is on a suction time system, like an RV. With a gravity fed system, it shouldn't be an issue, or at least much less of one. If I don't use my 2 liter header tank(with a drain at the low point), I will use the kit gascolator.

Gravity isn't much pressure, but it is a lot better than a bunch of suction.

90's fuel injection it was common to run the system at 30-35 psi. That is what EFII uses on their system now, as they use a fuel rail with a full return to the mains or header tank. SDS went away from that and use a small manifold that sits where the Bendix divider sits, on top of the engine. It is a manifold only, no moving parts. Fuel is returned from there, so from that manifold to the injectors, is return-less. So the place where the fuel is hottest on shutdown, will be at the inlet to the injectors. Because of this, SDS recommends their system be run at 45-50 psi. They said the extra pressure is because they already run return-less to the injectors. Helps with hot starts. A lot of newer cars run even higher pressure for the same reason.



As far as testing, the easiest test and worse case, is just turn a fuel pump on with the engine off. 100% of the fuel will be returned, continuously. Keep monitoring the temp of the pump and fuel. At cruise rpm and fuel flow, 50-80% of the fuel is still returned, so some of the same fuel will go through the pump 2-5 times. To me this is a cause for concern, but AFP rates their boost pump, which does the same exact thing, for continuous operation. My pumps will be mounted on an aluminum plate, maybe that will help to act as a heat sink/radiator. We will see.

I read about half of AFP's Intallation Manual from their website. Under Documents. The first half of it is much less about their system, but aircraft fuel systems, Bendix FI, and the different ways to run and plumb FI. Things that work, and things to avoid. It is a wealth of knowledge. There is even a decent section on plumbing your air intake, and pitfalls to avoid there. It was definitely worth a look for me.

If we assume a metre of head generates +0.15psi in the fuel system, then one might assume -300mm of head in a low wing would relate to -0.05psi [suction] assuming a linear relationship and all other things being equal.

That was my thinking when I said the difference is probably immaterial compared to 45psi required by the system.

Yes it does help, however it might be an extra ~0.5%. A lot better might be overstating it.