JerryG,
I have to take issue with part of what you say.
First "Both" is just not correct. There is absolutely more cross-sectional area through every part of the banjo (see the drawing I've posted and do the calculations if you are skeptical) than through the tubing it connects.
Second, strictly speaking splitting the flow should not make any difference and the difference between four small 90 degree bends and one large 90 degree bend just doesn't seem like that big a deal. I would sure like to see any source for actual data to back this up.
If you are just speaking from theoretical perspective, but have no evidence to nail down the objective magnitude of the effect, then my gut tells me the difference between a standard fitting and a banjo is just insignificant at these rates of flow and pressures, whether driving a motor or a cylinder.
Look at the internals of a spool valve, it has lots of flow paths that are every bit as convoluted as a banjo fitting.
I would truly be fascinated to see any real data to quantify the effects, but I'm not aware of it and I am not familiar enough with fluid dynamics to do the analysis. I work with some mechanical engineers who are plenty expert enough to easily do this analysis and may have a talk with them.
Again, I want to reiterate that I am not trying to be difficult but just want to understand the perspective from which you speak. You may well know better than I, but some of what you say is I think incorrect, and in the absence of data, I remain somewhat skeptical. Happy to be corrected if I am mistaken. /forums/images/graemlins/smirk.gif
I have to take issue with part of what you say.
First "Both" is just not correct. There is absolutely more cross-sectional area through every part of the banjo (see the drawing I've posted and do the calculations if you are skeptical) than through the tubing it connects.
Second, strictly speaking splitting the flow should not make any difference and the difference between four small 90 degree bends and one large 90 degree bend just doesn't seem like that big a deal. I would sure like to see any source for actual data to back this up.
If you are just speaking from theoretical perspective, but have no evidence to nail down the objective magnitude of the effect, then my gut tells me the difference between a standard fitting and a banjo is just insignificant at these rates of flow and pressures, whether driving a motor or a cylinder.
Look at the internals of a spool valve, it has lots of flow paths that are every bit as convoluted as a banjo fitting.
I would truly be fascinated to see any real data to quantify the effects, but I'm not aware of it and I am not familiar enough with fluid dynamics to do the analysis. I work with some mechanical engineers who are plenty expert enough to easily do this analysis and may have a talk with them.
Again, I want to reiterate that I am not trying to be difficult but just want to understand the perspective from which you speak. You may well know better than I, but some of what you say is I think incorrect, and in the absence of data, I remain somewhat skeptical. Happy to be corrected if I am mistaken. /forums/images/graemlins/smirk.gif
