Technical Paper
Comparison of NOx emissions from hydrous ethanol and n-butanol predicted by an Otto cycle two-zone model using the Zeldovich reactions mechanism
2018-09-03
2018-36-0105
Among the gases usually emitted by internal combustion engines, NOx chemical species appear as some of the causes of great environmental impact and damage to human health, which shows the relevance of its study and quantification, as well as the constant search for the reduction of these emissions. The use of biofuels such as hydrous ethanol and n-butanol has the goal of reducing CO2 emissions in comparison to fossil fuels. However, it has to be accomplished without increasing NOx emissions. Analyzing combustion of these two fuels through a two-zone model for an Otto cycle engine, this work compared quantitatively the NOx emissions with the Zeldovich reaction mechanism, which can predict the formation and consumption of these chemical species during the engine's combustion cycle, being thus known as thermal NO.