@inproceedings{8f590d52f60943738631b443d4831ed0,
title = "Characteristics of knock in hydrogen-oxygen-argon SI engine",
abstract = "A promising approach for improving the efficiency of internal combustion engines is to employ a working fluid with a high specific heat ratio such as the noble gas argon. Moreover, all harmful emissions are eliminated when the intake charge is composed of oxygen, nonreactive argon, and hydrogen fuel. Previous research demonstrated indicated thermal efficiencies greater than 45% at 5.5 compression ratio in engines operating with hydrogen, oxygen, and argon. However, knock limits spark advance and increasing the efficiency further. Conditions under which knock occurs in such engines differs from typical gasoline fueled engines. In-cylinder temperatures using hydrogen-oxygen-argon are higher due to the high specific heat ratio and pressures are lower because of the low compression ratio. Better understanding of knock under these conditions can lead to operating strategies that inhibit knock and allow operation closer to the knock limit. In this work we compare knock with a hydrogen, oxygen, and argon mixture to that of air-gasoline mixtures in a variable compression ratio cooperative fuels research (CFR) engine. The focus is on stability of knocking phenomena, as well as, amplitude and frequency of the resulting pressure waves.",
keywords = "Argon, Hydrogen, Internal combustion engine, Knock, Noble gas",
author = "Killingsworth, {Nick J.} and Rapp, {Vi H.} and Flowers, {Daniel L.} and Aceves, {Salvador M.} and Chen, {J. Y.} and Robert Dibble",
year = "2010",
language = "English (US)",
series = "Western States Section of the Combustion Institute Spring Technical Meeting 2010",
publisher = "Western States Section/Combustion Institute",
pages = "772--778",
booktitle = "Western States Section of the Combustion Institute Spring Technical Meeting 2010",
note = "Western States Section of the Combustion Institute Spring Technical Meeting 2010 ; Conference date: 22-03-2010 Through 23-03-2010",
}