Brooks, thanks for those photos, they help me visualize a lot.

Jay

Thanks Brooks. Great pix. Very helpful
Lee

I appreciate your pictures.

Any chance you have some pictures showing locations of ports (and size) welded to aluminum tank?
I thought I might be able to pickup the fittings at oshkosh. I do not know what size.

stan

Spinning wrench has a great drawing….I have no photo that can improve in it. In order the size the fuel tank bungs, consider committing to the hardware that you will use. Each tank outlet will have a finger screen that threads into the bung and receives a male AN fitting. The 3/8” fuel line will take a dash 6 fitting. So take Bob’s Patrol Book, the Tony Bingellis books, and the spruce catalog and make it fit.

link to finger strainer

Thanks Brooks...pics are worth a lot of words! Would anyone be able to post a pic of the wing root rib penetration of fuel lines from the tank? Setup like Bruce (spinningwrench) depicts in his diagram. With fuel tank installed I'm at the point where I need to mark and drill the pass-thru holes and don't like where I have to drill for the nipples off the two fuel feed bungs on the tank.
All comments appreciated.

Dave

I would source fuel tank fittings from Summit Racing or Pegasus Auto Racing. They are much more compact than the fittings from spruce which I cut quite a bit of material off of before welding them into the tank. For the sight gauges and vent lines you can weld 1/4" male fittings directly to the tank instead of a female fitting to install an AN male fitting. Just be aware you have to protect the threads during construction/installation.

I discovered race car fittings after I installed these. The second & third photo shows the forward fuel line. this design conforms to Bob’s Patrol book. The wing line connects to the fuselage fuel line using a rubber hose and two hose clamps. The end of the hard line is beaded to accommodate the rubber hose installation. The red cap cover the bead.

So, consider installing a flexible line from the tank instead of this hard line. There will be one less joint, and the fitting will be a flare fitting. Seems like an improvement to me.

IMG_0510.jpg IMG_0511.jpg IMG_0512.jpg
these show my aft fuel line installation.
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Thanks Brooks, your fuel lines appear to have more distance from the lightening holes/flanges than I do on my Q/B wing, hence the concern in my situation. I do like the idea of flexible lines from the tank to the fuselage. With fuel tank installed and secured there is still a bit of "jiggle" movement possible by hand. Not sure if hard lines would be best over time, esp as the rubber grommets deteriorate with age and potential for line to rib contact? Servicing those as short runs of rubber flex lines would be a PITA but doable...

One option if you need more direction change is where Bruce depicts #7, instead of using a straight nipple, use a 45. Then you can clock it as necessary to offset the route of the lines. Personally I don't like flexible lines for lots of reasons, and only use them going from the firewall to the engine.

Jared, I'd be interested in knowing more about the downsides of flexible lines. Would you be willing to share?

Lifespan:
They have a shorter calendar life compared to bent and flared 5052 lines. Often folks cite them being used in race cars as a vote of approval, but race cars are short-lived. We build airplanes for decades of service.

Bend Radius:
The minimum bend radius is multiples larger than what we can achieve with 5052, and this really matters in the wing root area. Same with how far beyond the fitting you can begin the bend.

Size and Weight:
The wall thickness of a flexible tube will be much larger than the aluminum tubing, which means it takes up more space. This can be a problem in tight areas like the vertical runs in the cabin. The tubing assembly will weigh much more with long flex line runs.

Shop Fabrication:
There are flexible lines that can be made in the shop, but it seems the better ones are made on more expensive equipment than the typical builder will have access to.

Airframe Abrasion:
For braided stainless lines, the jacket can damage the airframe tubes, wires, and just about anything else it rubs against. Of course the solution is proper anchoring and perhaps some padding, but if you get it wrong, it would be most unfortunate for your first indication to be metal removed from something really difficult to replace.

I do use flexible braided steel lines where I have to in the brake system, and just cope with all of the disadvantages. But I only use them when I have to, and I worry sometimes builders use them more than necessary out of convenience, familiarity from other hobbies, or just not wanting to learn how to bend and flare the 5052 tubes.

Any time I find myself substituting ideal materials, I try and ask myself why. If it is it to save having to learn something, wait for something to arrive, save a little time, to support a prior bias, or something like that, it's a big red flag to remind me it's time to reassess. Sometimes there are worthwhile reasons, sometimes not.

Just to add to all the excellent points made above, I used very short flexible hose sections to join the fuel lines at the wing root. This was because I couldn't do a trial fit to match the ends until final assembly.

The required bends are made in the 3001 fuel line (not the flexible line), with a flared bead at the ends, so the short pieces of flexible line are straight, and easy to get into place (being flexible). Once the wings were mounted we joined the lines with approximately 4" of flexible line that I was able to bend and squeeze into place through the wing root. They slide over the beaded pipe ends and are held in place with hose clamps.

It's easy to access and easy to inspect - knowing that at some point it will need replacing. The only other places that flexible lines were used are in the brake system to connect to the pedals, and to connect to the gear legs, both where movement occurs. The pedal lines are easy to inspect anytime. The gear leg connecting lines are a 100 hour inspection item when the floor is out.

The photos below show the lines from the tanks to the wing roots and the beading tool (kindly loaned from Simon Nicholson).

FBF43E0C-B42E-44D5-A685-392BBB82576B.jpg

27B6C9DE-178C-45C4-AF4A-4D026A7DA10F.jpg

C628F08E-264D-4C40-892D-4B56D63B2721.jpg

8E37E292-23F3-469C-ABDB-5067F081ACEC.jpg

I like the idea of short flexible lines within the wing root area with beaded connection. That's how I did it on a previous build and I believe it compensates for some movement/vibration between the tank to fuselage fuel pathway. What I didn't like was location of the aft fuel feed for drilling the pass thru (even with a 45 fitting) off the bung. I elected to use a 90 fitting and come out thru the false spar aft of the fuel bay and then out the ribs to the wing root/fuselage space. I havn't made that line yet, but it appears easily doable?
90 degree fitting for rear outlet.jpg Rear fuel tank outlet.jpg