And thanks to your help, I have gone to the same route (so far ).

It has stimulated some interesting discussion.

indeed it was, although starting to get a tad to tecnical on where to stick your pipes, considering there is a tried and tested method that works!

When you have an air-box the fundamental approach to controlling air flow is to mix the flow through a common plenum and so the logical way to control the differential pressure between venturi and the float bowel is to pick a point to sample (for float bowl equalization) is a point up stream to that air intake mixing process. a port on the inside of the rear chamber is apparently adequate.

Certainly there is an attempt to regularize this differential pressure across all RPM and road/wind conditions. However, I don't think that trying to maintain a particular differential pressure specific to a particular carberator or cylinder is needed or even wanted. In other words you don't want to adjust the pressure inside one float bowl v.s another because there is an apparent drop in pressure at one pod v.s. the other.

From my discussion it would seem clear that the flow rate of air through any cylinder at a given RPM is going to be little effected by changes in pressure at the inlet of carb. The strongest evidence there is that you don't need to precisely balance the airflow between cylinders is that fact that individual pods work at all. In fact they seem to work quite well with the possible exception of these cross wind issues.

I think we are in agreement as Steve initially pointed out that with or without Pods the equalization tubes are important and so that really is my focus, how to provide a stable or regular float bowl pressure in response to RPM/Speed and riding/cross wind conditions.



I'm thinking that the best thing to do is regularize the flow into the equalization ports with a single K&N style breather filter like you originally suggested.

It inherently creates a plenum effect inside of the filter and the oval/round shape is inherently less susceptible to local pressure changes because it samples all around. The flow requirement is low enough that a single filter will equalize all of the float bowls. My port inlets are about 6 mm and so a 3/8" vacuum line has more area than two 6 mm ports. Basically all you need is a 1/4" T with a 3/8" port (min) to go into the breather.

Looking at my bike at least it is kind of a toss up about where is best for the breather. Down behind the cylinders, right behind the pods on the cross support or all the way back to the top of the battery and shielded behind the side covers.

I don't think that the problem is as bad as might be envisioned in that there really is kind of a bubble of stagnant air behind the motor where the pods are and probably further back. (I previously described this with the slip streams going well around the bike/rider). If it was not so then you would see different acceleration/power in each gear. If you were tuned correctly for air flow at low speed but high RPM, then it would surely change as you started going much faster but the same RPM's/throttle position.

Soto a large extent the primary objective of the breather type filter is to regularize what ever pressure/flow there is required going into the float bowls for equalization and to provide a protective guard against any occasional cross winds that might affect the differential pressure of the vent pots.

I still think it is a good idea to do something other than just leave them open (although that works pretty well also), although I'm not sure if I will ever really be able to prove or even notice any improvement.

Agree with all the above. Note that I wasn't suggesting that one try to sample for each carb individually.

I too am liking the idea of using a small filter as a stabilizing plenum.

Especially since I already have one to try....

And I am sure it will help me pick up at least 7 horsepower....

And increase fuel mileage by 4 mpg.

Cheers!

Sorry, that is why I though you were suggesting a sense point near the carbs?

Further to your comment earlier about dyno testing/tuning. As I have read following dyno tuning you still always have to do some "real world" riding.

I wonder if this has anything to do with pressure changes at speed behind the engine changing the float bowl pressure (and effectively the jetting) from what it is on a dyno with just a fan blowing.

I did my tuning with a WBO2 sensor so it is real world as it were. Well worth the effort.

I was suggesting having a single pickup point roughly around the air filters, mimicking the stock arrangement.

Agree about the limitations about the dyno tuning (thought I mentioned that in an earlier post, but perhaps not).

One interesting observation is that the sensitivity I experienced is at partial throttle opening at high speed. Whack the throttle open and the surginess would go away, or at least be hidden. I think this is why the dynojet tech guy initially recommended going back to the stock size air jets. He didn't even mention the vent tube until I raised it.

All this suggests to me that the "balance tube sensitivity syndrome" is magnified at high vacuum (partial throttle) condition, which is when the differential pressure across the jet is maximized, but also when the effective jet size is smallest (due to the low needle/slide position). Airflow velocity is more or less constant due to the CV carb, but the pressure in the carb is low relative to atmospheric. There are a couple factors at play here (differential pressure, air velocity, and effective jet size), so I need to think on this a little longer.

Finally, I'd be REALLY interested in learning about your O2 meter setup. I was trying to figure out how to make a poor man's meter using a cheap O2 meter and automotive sensor, but even that was difficult without a bung in the header collector pipe.

Picture please.

I ordered one of these. It already has a built in T and I only have to adapt from the 3/8" down to the 6mm at the float bowl ports.



I also considered that if it is in fact side pressure due to changes in angle of attack that it would at least be better to not have the filter pointing that way. This way the filter pulls from front and back and not from the sides. Minor effect perhaps.

Forgive the references to a Hawley

I'll just run individual lies from each carb pair to this on either side and tie strap it somewhere just behind the pods or as far back as the battery

I think this is the final configuration







Made a sniffer ; there is about 3 ft of copper pipe up inside the header aboy to the collector. The only bung is welded into the peice of 3/4" steel black pipe that is part of the sniffer.

I have been taking a new look at the old data and I seem to be getting clutch slip at WOT 9300 RPM.

Mine looks just like that, but is only a single tube, so will use my plastic T fitting.

I expect to pick up some serious horsepower with this configuration. Posplayr guarantees results!

(looking forward to reading the other links you posted. thanks!)

OK I finally got around to installing my filter. I used a double port breather off of ebay. It is 3" in diameter and as you will see i had to do a frame mod to locate it high up under the tank where it is essential fully shielded from any cross winds but will still be subject to any air flowing below the gas tank.

I used a 3/8" ID clear tubing (1/2" OD) as this is basically just vacuum line. The carp inlets are 6mm which I found some 1/4" vacuum line fit that pretty well. I stepped up to the 3/8" OD using some 7mm gas line on top of a connector that just fit snug inside of the 3/8" tube.



On the GS1100ED's there is a little metal bracket welded across the top of the frame to serve as a anchor point for bolting the rear of the tank down. There is a flange that sticks off, not sure what it was for but it was slightly too small for the 2" filter. So I pursuaded it up with a sledge and block of wood so the filter would fit there





This is picture shows a side view of the filter mouned about 8" above the carb center lines. When you look at a side view of the bike with side coveres mounted it is obvioulsy going to be pretty sheltered at least from cross winds.



No ride reports, not expecting any big changes unless I'm chocking off the vent lines

well, be interested to see the ride reports. although i guess you will have to ride in a few different weather conditions to get a complete picture of any changes

I found this old post by Keith Krause (the local expert on carbs)
which represents a lot of work and exploration on this topic by him.





The surprising point he makes is that with pods you need to remove the line al together as that the increased fuel flow through with pods requires more flow through the vents and the 1/4" line is too small.

I only used a small 1/8" section to attach a 3/8" ID hose to the 6mm nipple. So the area of the hose is essentially twice as large as stock and relatively short (6-8" going up to the filter).

I still need to do a road test to ensure I don't have fuel starvation issues with this setup.

isn't that what we have been saying all along??