leafman60
Cruisin' Guzzisti
Ok, after fabricating my own CARC vent and posting the pictorial here I got to thinking. Several people have postulated that the stock vent is bound to let rain into the CARC drive.
I have not been totally convinced of that but I made my vent system primarily because I do a lot of off-road running and creek crossings. Intuitively, I could accept that, if the stock CARC vent got submerged in water while crossing a stream, water could enter the CARC drive.
I decided to do a little test with my almost-new stock CARC vent from my Stelvio. I constructed a little experiment and the results are interesting.
I took the stock vent fitting and screwed it into some tubing. The tubing is connected to a vented collection bottle. This apparatus should collect any water I could get to intrude on the vent fitting.
I improvised a test stand.
I then used a garden hose and sprayer to focus an intense shower onto the CARC vent. I tried several angles of spray for expended periods of time. I am not certain as to what rain or road water exposure the stock vent encounters on the bike but I feel like the water stream shown in these photos matches if not exceeds that encountered on the bike.
First, I tried spraying straight across from the side.
After ample time, maybe 2-3 minutes, I inspected the catch bottle and there was no water inside.
Then, I tried an overhead angle. Again, this resulted in no water in the bottle.
I then directed the scattered spray upwards underneath the vent hood. This did result in a drop or two of water in the bottle after 2-3 minutes.
I then focussed a concentrated stream directly at the underside of the vent hood. This did result in more water in the catch bottle but not nearly as much as I would expect.
Ok, now for a submersion test. I happened to have a funnel that allowed me to slip the tubing through and effect a good seal and thus provide a way of submerging the vent fitting.
I filled the funnel and let it stand. Yes, I obtained the greatest amount of water through the vent fitting while it was totally under water. Again, though, water did not just freely flow through it as I expected.
I removed the hose from the bottle and observed the flow. It was more like a constant and steady drip.
Based on this rather quickly-prepared test, I am not sure I would worry a great deal about riding in the rain with the stock vent set-up. I cannot imagine that even a hellacious rain would result in the kind of water exposure that I created here. Yes, water could get in. Maybe it does. I simply could not detect any water intrusion with a steady fanned spray on the vent fitting. If rain got thrown up under the vent cap, maybe it would enter. I just can't see how that could happen based on where the vent fitting is placed.
Two other points. Perhaps there is a condensation effect going on for some people. As moist air is drawn into the CARC there may be condensation resulting during the normal heat cycle. Second, maybe there is some production variation in the vents. Perhaps some do not perform as intended.
I question whether heat variations would suck rain during operation but perhaps it does.
I do believe that regular submerging of the stock vent could result in water infiltration to the CARC. The degree of that infiltration would depend on many variables including the depth of submersion and time duration of submersion.
In the end, I am glad I made my CARC vent since it will be subjected to occasional submersion. A plumbed vent line may not be necessary for everyone but it will not hurt. Better to have it and not need it than to need it and not have it.
I have not been totally convinced of that but I made my vent system primarily because I do a lot of off-road running and creek crossings. Intuitively, I could accept that, if the stock CARC vent got submerged in water while crossing a stream, water could enter the CARC drive.
I decided to do a little test with my almost-new stock CARC vent from my Stelvio. I constructed a little experiment and the results are interesting.
I took the stock vent fitting and screwed it into some tubing. The tubing is connected to a vented collection bottle. This apparatus should collect any water I could get to intrude on the vent fitting.
I improvised a test stand.
I then used a garden hose and sprayer to focus an intense shower onto the CARC vent. I tried several angles of spray for expended periods of time. I am not certain as to what rain or road water exposure the stock vent encounters on the bike but I feel like the water stream shown in these photos matches if not exceeds that encountered on the bike.
First, I tried spraying straight across from the side.
After ample time, maybe 2-3 minutes, I inspected the catch bottle and there was no water inside.
Then, I tried an overhead angle. Again, this resulted in no water in the bottle.
I then directed the scattered spray upwards underneath the vent hood. This did result in a drop or two of water in the bottle after 2-3 minutes.
I then focussed a concentrated stream directly at the underside of the vent hood. This did result in more water in the catch bottle but not nearly as much as I would expect.
Ok, now for a submersion test. I happened to have a funnel that allowed me to slip the tubing through and effect a good seal and thus provide a way of submerging the vent fitting.
I filled the funnel and let it stand. Yes, I obtained the greatest amount of water through the vent fitting while it was totally under water. Again, though, water did not just freely flow through it as I expected.
I removed the hose from the bottle and observed the flow. It was more like a constant and steady drip.
Based on this rather quickly-prepared test, I am not sure I would worry a great deal about riding in the rain with the stock vent set-up. I cannot imagine that even a hellacious rain would result in the kind of water exposure that I created here. Yes, water could get in. Maybe it does. I simply could not detect any water intrusion with a steady fanned spray on the vent fitting. If rain got thrown up under the vent cap, maybe it would enter. I just can't see how that could happen based on where the vent fitting is placed.
Two other points. Perhaps there is a condensation effect going on for some people. As moist air is drawn into the CARC there may be condensation resulting during the normal heat cycle. Second, maybe there is some production variation in the vents. Perhaps some do not perform as intended.
I question whether heat variations would suck rain during operation but perhaps it does.
I do believe that regular submerging of the stock vent could result in water infiltration to the CARC. The degree of that infiltration would depend on many variables including the depth of submersion and time duration of submersion.
In the end, I am glad I made my CARC vent since it will be subjected to occasional submersion. A plumbed vent line may not be necessary for everyone but it will not hurt. Better to have it and not need it than to need it and not have it.
Thus oil and water could possibly enter past the CARC seal if there was a differential in pressure to encourage it on the way.
