Diesel Knock Combustion and Its Detection Using Acoustic Emission

This paper presents an experimental investigation into the detection of excessive diesel knock using acoustic emission (AE) signals. Three different dual-fuel diesel engine operating regimes were induced into a compression-ignition (diesel) engine operating on both straight diesel fuel and two different mixtures of fumigated ethanol and diesel. The experimentally induced engine operating regimes were; normal, or diesel only operation, acceptable dual-fuel operation and dual-fuel operation with excessive diesel knock. During the excessive diesel-knock operating regime, high rates of ethanol substitution induced potentially damaging levels of diesel knock. AE data was captured along with cylinder pressure, crank-angle encoder, and top-dead centre signals for the different engine operating regimes. Using these signals, it was found that AE signals clearly distinguished between the two acceptable operating regimes and the operating regime experiencing excessive diesel knock. It was also found that AE sensor position is critical. The AE sensor positioned on the block of the engine clearly related information concerning the level of diesel knock occurring in the engine whist the sensor positioned on the head of the engine gave no indication concerning diesel knock severity levels.