First, I am not an expert in cavitation but have had some past interest in the subject. While I work in the piping field, I think I furthermore have only run across only a time or two of instances I can remember where I was told some lining/piping destruction problem was caused by "cavitation" in a great many years. While I have probably been some sheltered, this could also mean at least the real deal happens rather infrequently.
When I first opened up this photograph reported as cavitation damage, I likewise have to admit however what I thought I saw in the picture (some sort of what appeared to be axially oriented flow lines?/grooving? and some deep, but widely separated/discontinuous "pits"?, and perhaps even with much more normal metal thickness surrounding?) did not appear to fit the image I had in my "minds eye" of cavitation caused by very abrupt pressure drop etc.
While that certainly doesn't mean this is not cavitation, my previous minds image, right or wrong, was of a porous, pock-marked surface deeply scarfing an area of a valve or very closeby piping, I thought to be caused caused by sort of blasting or splattering due to implosion of gas bubbles.
Incidentally, in the one past instance I thought I remembered where I was advised someone had encountered severe cavitation, I thought I read or heard in my research way back then that the violence of the vapor implosion events were akin to tiny "nuclear explosions" that really no lining or pipe could withstand (sort of like what I have read from at least a few on this thread). While I had no idea then where or how they had come up with that analogy (and it seemed to be a sort of non-obvious over-statement to at least a few of us sort of semi-educated folk back then), I now read a more specific statement in another technical reference,
"When the cavitation bubble collapses it generates a temperature of 5,000 degrees C and a shock wave that travels over 500 miles per hour."
If this is in fact true (and for someone to even quantify such in this fashion I suspect they would have had to have some rather heavy duty brainpacks, $ and instrumentation behind them!) I'm not sure I would assume that the problem (cavitation or erosion) would be magically solved economically or functionally by just throwing in instead at least common austenitic steel pipes and fittings, I think that have about a maximum 88-95 HRB (maximum Brinell ~151-175 hardness). I guess this is what LittleInch talked about in treating the symptoms as opposed to the problem.
As butterfly valves are apparently involved with low discharge pressure, you may also be interested in the guidance at
I also noticed in the latest pic that the 90 elbows are obviously VERY "close-coupled" off what appears to be a discharge valve, a practice I think had also seen mentioned in past in some literature.
On a definitely lighter note, there is homework for the weekend at
. Everyone have a good one!
