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REF: Engine Mechanicals


Breather Venting / Relocation

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There are many aftermarket and homemade breather vent relocation mods available to move the vents out of the air cleaner.
However, depending on how you route the vent lines, you can cause emulsified oil accumulation in them.
Emulsified oil will just build up in the tubes until it all comes out.
And it could also alter engine breathing if it doesn't come out.

If the umbrella valves are in good condition, there should be very little oil coming out the vents.
However, condensation will happen and so will a certain amount of oil mist.
Sharp bends and elevations in the vent lines will allow this mixture to sit and build instead of flowing the end of the vent line.
A filter on the end of the vent does the same as the bends and elevations. It allows the mist to sit and build.
There is no need to install a filter on the end of the line.
It's just a potential puddle later.

Vent Outlet Above vs Below the Head Vents

There has been debatable ways to route the vent lines off the heads when doing air cleaner mods.
However, exact line routing comes down to function over fashion.
While it may look better or cleaner for the lines to be routed above the air cleaner;
Doing so doesn't necessarily make for good functioning of the breather system.
That also can be debated.

The air / oil that gets blown out is a combination of crankcase pressure and engine blowby.
The argument is blowby gasses produce a corrosive vapor which doesn't need to go back into the engine.
It'll simply pool in the heads / vent lines and become an emulsified goop.
Mounting vent lines higher than the head vents is counterproductive to quick air/oil/condensate removal.
It's the quick removal that helps prevent sludge buildup.

As you can see from the drawings below, expelled air leaves the rocker boxes by running downhill to get out the vent holes in the heads.
If the vent lines are piped above the exit point in the heads, oil out of suspension will not drain back into the engine.
The oil would have to run uphill to get from the heads to the rocker boxes and into the lower end.
So there is no functional advantage to running the lines higher than the head vents.
1) 2)

The air coming from the head vents has fine water condensation and oil mist particles in suspension with it.
When that air cools, the oil mist falls out of suspension and collects in the vent lines and mixing with unsuspended oil droplets.
Pointing the vent lines straight into the A/C (OEM) or down into a catch can allows the oil out of suspension to leave the vent lines.

Kuryakyn or Other High Mount Breather Bolts:
However, pointing the vent lines upward of the head vents allows oil out of suspension to collect in them.
Once there is enough liquid oil in the upward breather tubes it will act just like the trap under your sink.
It may restrict or block air from getting out until the engine (on startup) builds enough pressure to push the liquid and bubble up to the top.
So it may affect crankcase pressure slightly until the lines are cleared.
Or the trapped oil may simply be blown out the vent lines in globs.

Vent lines mounted high tend to promote a mixture of oil and condensation settling near the head connection of the hose.
3) 4)

Horseshoe Tube:
The horseshoe breathers that take the outlet from the breather bolts upwards tend to clog with foamy oily gunk. 5)
It's a low pressure output with not enough to push the sludge upwards and around the bend.
This means the breather bolts are swimming in this gunk and if there is a small leak there is plenty to leak.
Fitting a breather where the outlet from the bolts goes downwards alleviates this.
Nylon, copper or brass washers will deform slightly under pressure and seal things better also.

With the horseshoe tube mounted high and only one end with a vent line at the banjo bolt, condensation and oil can emulsify in the non-vented end.
In the pic below, the air in the rear head has to travel up to the front.
When the engine is shut off, condensation / unsuspended oil falls back to the low spot (in this case the tube connection at the rear head).
Goop collects there which either has to re-suspend after startup, heat up and move out into the vent.
It can also come back down the horseshoe towards the engine, and collect at the breather valve.
If there is a filter on the end of the vent line, this collected goop can be sent to and clog the filter as well.
Some appear to be OK with this as it is seen as better to be outside than inside the engine.
However, the goop (emulsified oil) is a restriction to crankcase pressure leaving the engine until it is cleared.

6) 7)

Horseshoe tube, high mount / vent line in front. 8)Rear bolt covered in sludge. 9)Filter mounted high will receive built up sludge. 10)

Vent lines mounted lower than the head vents allow oil / condensation to leave the heads.

This way, sludge can form on each side of filter. 11)This way promotes less sludge buildup. 12)

The sludge doesn't get there at once.
To begin with, it's just a slight mist. The restrictions to the vent line (including a filter on the end) allow the mist to glob.
Also, the healthier your engine breathing, the less problems you'll have with the sludge.
But sludge will form even in the healthiest conditions depending on how the vents are routed.

Breather Bolts

OEM Breathe Bolts

Crankcase pressure was increased in 2004 by several means.
One of which was the reduction of the hole size in the breather bolts on the engine side (more restriction).
The smaller hole creates higher pressure in the crankcase on piston downstroke which aides in oil scavenging.
They also allow the air to leave the vents at a faster rate.
The threads in these bolts are cut wider for a tighter fit into the heads.

13) 14) 15)

Aftermarket Banjo Bolts

Aftermarket breather bolts have a larger hole in the bolts than the 04+ bolts.
The banjo bolt must be indexed to have the small side hole on top. 16)
If not, they will drip more. You can adjust them with copper washers.

Careful when tightening the bolts with the holes in the sides, the hole does weaken the bolt.
The threads may be cut to standard width which allows a looser thread fit into the heads.
To stop a leak, you may be tempted to tighten the bolts even more.
This could result in breaking the bolt.

On 04-up heads, changing to aftermarket breather bolts means using bolts with the bigger I.D. (91-03) style bolts.
The results of using the bigger holed bolt would be a slower rate of outflow and less positive crankcase pressure on a stock motor. 17)
But the timing of the upstroke is the same which then pulls a vacuum.
The umbrella valve will close down only when inside air pressure is lower than outside air pressure.
If the inside pressure can't get out fast enough before piston upstroke happens the umbrella may 'float' or not close all the way.
If the umbrella floats, X amount of extra air is pulled in until it does close.
(on top of what didn't get completely out on the last downstroke = more air in the engine on the next downstoke = oil puking out the breather).
How much slower the bigger bolt hole yields will vary with different engines.

However, the smaller holed bolts were designed to OEM specs internally.
If you've upgraded to bigger pistons, there will be more positive pressure displaced out the breathers on downstroke.
This may negate the need for higher pressure generated by the smaller holed bolts.
This may be something you'd want to watch since there isn't sufficient data to prove one way or the other.

18) 19) 20)

Filter on End of the Vent Line

Lots of folks like to install a small filter on the end of the vent hose. 21)
It's not at all necessary as there is no vacuum there (just a slight escape of crankcase gasses).
The filter adds resistance to the vent pressure coming out of the engine.
This resistance can add to goop in the line / filter later.
It can also increase the vacuum inside the engine, which on a street bike, translates to weeping gaskets.

The filter does not keep debris from coming back into the engine. 22)
If anything can get back in, it means your umbrella valves are shot.
There will be quite a bit of oil coming out the breathers, and all sorts of stuff going back in.
Unfortunately, it's not just condensed oil.
It's emulsified oil, as the oil mixes with water which condenses out of the crankcase breather gasses.

If your breather valves are in good order, nothing can get back through them.
The exception to this would be small oil drainback hole that keeps oil from building up between the umbrella and the outlet.
The tiny holes next to (and slightly lower than) the umbrella valves are for draining the separated oil back into the rocker box.
However, there isn't large enough suction back on the vent line to pull debris up and into the engine.

Filter Placement

Adding a filter on the end of the line and hanging the filter lower than the vent can cause filter blockage.
No matter what breathing system you are using, a certain amount of oil / air mist still makes it past the breather.
That and vapor condensation will fall out of air suspension when it hits the filter element and cools down.
Even if it's just a small non-visual amount, it will eventually clog in the filter material or in the line before the filter.
Condensation and separated oil and attach to the filter element and clog it up.
If you feel you need a filter on the end, check the the filter routinely to make sure you can blow air through it easily.
Anytime the filter element is not clean looking, there is some amount of debris in it.
The more debris in the filter element, the higher the resistance back to the engine and crankcase positive pressure will be higher.
Too high and it can blow out the seals gaskets in the engine.
Blocking the breather(s) simply bottles up pressure inside the engine.
23) 24)

Aftermarket Breather Valves

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There is a product called a Krankvent that can be plumbed into the lower, 6 o’clock position as an alternative to a stock foo-foo valve. 25)
But they are not cheap. Automotive PCV valves are not really made to handle the revs or air volumes of a Harley.
While a car engine is bigger, it has one piston coming down while one goes up.
So there's not much change in internal crankcase volume, so not as much breathing to be done.
A Harley has two pistons and rods on one crankpin, so is one giant air compressor.

Some guys have found that plumbing in a 77-78 foo-foo valve on the later model engines improves breathing.

Finding a better breather valve: 26)
The breather valves that work best on crankcase breathers have several features:

  • Low-inertia, i.e. they don't take more than a breath to open and close.
  • They operate at low pressures ~1-30psi.
  • They preferably have a floating type seal.
  • They should be transparent, so you can see if they block up with blowby, solids, bugs etc.
  • They should be easy to open and clean occasionally.
  • They should push-fit into your breather line.

Metal diaphragm valves with e.g. springs are hopeless.
Also avoid other types of valves designed to work at high pressures e.g. plumbing valves.
Avoid car PCV valves as they are metering as well as non-return valves and are unsuitable.
Automotive PCV valves are designed to let some air back in.
The ball and spring valves will not be able to work fast enough to keep all the air out.
When air is allowed to be drawn back into the engine, it creates a mass that must be compressed by the pistons on downstroke as it is being vented out.
This robs some power and will cause the engine to work harder (creating more internal heat at higher RPM). 27)

Aftermarket PCV's: 28)

  • Mercedes Benz P/N# 271-018-00-29 ~$13.
    • Reed type PCV valve. Fast acting. Used for their C 230 Kompressor engine.
    • Dims: 2-1/2“ long by 1-1/8” with an I.D of 1/4“.
  • McCaster Carr P/N# 4610K17 ~$6.
    • Umbrella valve. Vacuum check valve.
  • Autozone P/N# PCV1174 (PV272) ~$5.
  • Ball/spring based PCV valve.
    • Makes a clicking noise during operation.
Hayden KVP38 breather valve, used with the
Deimus Mod (cam chest breather conversion). 29)
Hayden breather opened up. 30)
Doherty Power Vents with the line routed up then
down and attached to the bottom of the frame. 31)
Doherty Power Vent 32)
Here is a 2-stroke reed valve. 33) Reed Valve 34)
Mercedes Benz P/N# 271-018-00-29 35)

Homemade Breather Valves

This was made by norseXL of the XLFORUM and is a direct derivative of the 86-90 breather valve setup.36)

A male threaded cap was made to screw into the female threaded body of the breather valve container as shown below.
The center of the cap was drilled and tapped for a hollow (5.5mm) M10 bolt.
The cam cover was also drilled and tapped for M10 threads.
The brass adapter for the banjo also has M10 internal threads.

The umbrella inside the body is the stock 91-03 umbrella.
A 1.5mm hole was drilled into the bottom side of the body to drain any oil that makes it past the umbrella.




1) , 6) , 7)
drawing by Hippysmack
2) , 13)
photo by Hippysmack
8) , 9)
photo by OakBehringer of the XLFORUM http://xlforum.net/forums/showthread.php?t=2004878
21)
Turbota of the XLFORUM
24)
photo by socal1200r of the XLFORUM, annotated by Hippysmack http://xlforum.net/forums/showthread.php?t=30844
30)
photos by leucadiaGuit of the XLFORUM http://xlforum.net/forums/showthread.php?t=2004869 cropped by Hippysmack
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