Pardon the Long Post!
Originally posted by DPelletier
I am more confused than ever. The Pwrstrk is also sleeveless, yet it definitely needs the additives... If our engines truly do not require an additive, it is not because they don't have liners
So the question remains...
Dave,
You're exactly right. What determines the need for DCA is the question, "Is this engine design subject to cavitation?"
Cavitation is damage to the water jacket side of a cylinder surface caused by a vibration phenomenon known as "bell ringing". Wet liner engines are most prone to cavitation since their liners are normally supported by block fits at the top and bottom of the liner. So, what happens to produce cavitation? When that particular cylinder fires, the piston will move through its clearance with the liner, and the thrust face of the piston will (for want of a better term) "slap" the cylinder wall. This produces the same effect as striking a bell with a hammer - the liner vibrates or "rings". On the coolant side, as the vibration of the liner moves the liner surface away from the coolant, the area at the liner/coolant surface will drop below the vapor pressure of the coolant, and a gas bubble will form. When the liner moves back into this void, the pressure increases, the bubble implodes, and a high velocity "jet" of coolant strikes the cylinder wall. This will tend to blast away a few molecules of the liner surface, just like a high pressure washer. Over time, pits will form which can progress all the way through the liner - then coolant will leak into the combustion area, and things go downhill fast!
Depending on the stiffness of the cylinder walls in the block casting, some linerless engines (i. e. , the PowerStroke) may be subject to this same "bell-ringing" phenomenon and resultant cavitation damage.
DCA protects against cavitation with an additive called "cavitation inhibitor". In effect, cavitation inhibitor plates out on the surfaces (including the wet liners or cylinders) in the cooling system. This plating is sacrificial in that the plating instead of the liner/cylinder surface is blasted away when the coolant bubbles implode. Of course, after the coolant is in contact with the liner/cylinder again, more cavitation inhibitor will replate the liner/cylinder surface. This sacrificial action is why the cavitation inhibitor package in DCA can be depleted, and is why DCA must be tested and "doped" if the additives fall too low.
So, to our ISB's. Apparently Cummins' service experience is that the cylinder walls of the ISB are sufficiently rigid (unlike the PowerStroke) that they are not prone to "bell-ringing" and resultant cavitation damage. Therefore, DCA is not required in our engines.
Rusty
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