An Experimental Investigation of the Origin of Increased NO
Emissions When Fueling a Heavy-Duty Compression-Ignition Engine with Soy Biodiesel
It is generally accepted that emissions of nitrogen oxides (NOx) increase as the volume fraction of bio diesel increases in blends with conventional diesel fuel. While many mechanisms based on bio diesel effects on in-cylinder processes have been proposed to explain this observation, a clear understanding of the relative importance of each has remained elusive.
To gain further insight into the cause(s) of the bio diesel NOx increase, experiments were conducted in a single-cylinder version of a heavy-duty diesel engine with extensive optical access to the combustion chamber. The engine was operated using two bio diesel fuels and two hydrocarbon reference fuels, over a wide range of loads, and using undiluted air as well as air diluted with simulated exhaust gas recirculation. Measurements were made of cylinder pressure, spatially integrated natural luminosity (a measure of radiative heat transfer), engine-out emissions of NOx and smoke, flame lift-off length, actual start of injection, ignition delay, and efficiency. Adiabatic flame temperatures for the test fuels and a surrogate #2 diesel fuel also were computed at representative diesel-engine conditions.
Results suggest that the bio diesel NOx increase is not quantitatively determined by a change in a single fuel property, but rather is the result of a number of coupled mechanisms whose effects may tend to reinforce or cancel one another under different conditions, depending on specific combustion and fuel characteristics. Nevertheless, charge-gas mixtures that are closer to stoichiometric at ignition and in the standing premixed auto ignition zone near the flame lift- off length appear to be key factors in helping to explain the bio diesel NOx increase under all conditions. These differences are expected to lead to higher local and average in-cylinder temperatures, lower radioactive heat losses, and a shorter, more-advanced combustion event, all of which would be expected to increase thermal NOx emissions. Differences in prompt NO formation and species concentrations resulting from fuel and jet-structure changes also may play important roles.
Citation: Mueller, C., Boehman, A., and Martin, G., "An Experimental Investigation of the Origin of Increased NOx Emissions When Fueling a Heavy-Duty Compression-Ignition Engine with Soy Biodiesel," SAE Int. J. Fuels Lubr. 2(1):789-816, 2009, https://doi.org/10.4271/2009-01-1792. Download Citation
Charles J. Mueller, André L. Boehman, Glen C. Martin
Powertrains, Fuels and Lubricants Meeting
SAE International Journal of Fuels and Lubricants-V118-4, SAE International Journal of Fuels and Lubricants-V118-4EJ