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The nominal pressure for the HPDI HP pump is 1015 psi. Plus or minus 217 psi. Yes friends and neighbors, 217 psi.
If my math is correct 217 psi on the low side is over 20%. In theory that should also be 20% less fuel being delivered if and when the pump output is 798 psi. That would result is a much leaner air/fuel mixture.
A lean air/fuel mixture is more prone to detonation than is a normal or rich air/fuel mixture.
The HPDI does not utilize a knock sensor. Could this be a reason (one of many) for detonation that is seen somewhat often in a big block HPDI? Throw in a partially clogged injector and it will only get worse.
Detonate a block, install a new block with the old pump and kablowey. There goes the new block.
Just wondering why Yamaha does not call for a check of the HP pump when a big block HPDI shows signs of detonation? I stopped wondering years ago why there is no knock sensor. But there is a water is fuel warning.
If my math is correct 217 psi on the low side is over 20%. In theory that should also be 20% less fuel being delivered if and when the pump output is 798 psi. That would result is a much leaner air/fuel mixture.
A lean air/fuel mixture is more prone to detonation than is a normal or rich air/fuel mixture.
The HPDI does not utilize a knock sensor. Could this be a reason (one of many) for detonation that is seen somewhat often in a big block HPDI? Throw in a partially clogged injector and it will only get worse.
Detonate a block, install a new block with the old pump and kablowey. There goes the new block.
Just wondering why Yamaha does not call for a check of the HP pump when a big block HPDI shows signs of detonation? I stopped wondering years ago why there is no knock sensor. But there is a water is fuel warning.
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