On Knock Intensity and Superknock in SI Engines

KI is defined in this study as the maximum peak-to-peak pressure fluctuation that follows the onset of knock. It depends on xi = (a/u(a)) where u(a) is the speed of the autoignition front and a is the speed of sound. When u(a) is small, KI can be related to the product of a parameter Z, which depends on P-ko, the pressure at knock onset and the square of (partial derivative x/partial derivative T), which is the inverse of the gradient of temperature with distance in the hot spot. Both Z and (. x/. T) were calculated using measured KI and P-ko for hundreds of individual knocking cycles for different fuels. The model for ignition delay as a function of pressure P and T in the hot spot and other data needed to calculate Z were available from a previous study (SAE 2016-01-0702). For a given fuel and operating condition, Z varies because P-ko varies, because of cyclic variation of combustion -a stochastic process. (partial derivative x/partial derivative T) depends on the evolution of the hot spot during the engine cycle and depends on flow and turbulence -another stochastic process. All else being equal, Z increases and hence the probability of high KI increases as P-ko increases, e.g., by more advanced spark timing and/or faster flame development. For a given P-ko, Z is lower for a fuel with higher RON. In modern turbocharged engines extremely high intensity knock, informally termed superknock is observed to occur occasionally even though operating conditions are chosen to avoid knock. Superknock is caused by developing detonation (DD) which results when the value of xi decreases and the pressure wave begins to couple with the autoignition front and gets amplified. Autoignition has to be initiated at high P and T for superknock to occur. At practical operating conditions, this can only happen via another abnormal stochastic phenomenon -preignition, when a flame is established before the spark plug fires. Both preignition and superknock become more likely as P increases. All else being equal, the probability of superknock decreases as the fuel RON is increased. However, even with high RON, high KI and superknock could occur with the right combination of P and (partial derivative x/partial derivative T).