Improved Utilization of Nitromethane as an Internal Combustion Engine Fuel 852130
Single-cylinder engine tests, with computerized data aquisition, of several nitroparaffin and methanol fuel blends were conducted to identify engine operating conditions or fuel compositions which reduced combustion knock with no penalty to engine power. The effect of variation in equivalence ratio, nitromethane percentage in selected co-solvents, ignition timing and compression ratio was investigated at fixed engine speed and steady-state temperatures. Electronic filters were used to isolate the portion of the cylinder pressure signal containing combustion knock and a Fast Fourier Transform computer subroutine was used to characterize combustion severity in the frequency domain.
The results verified the empirical racing engine practice that for a nitromethane/methanol mixture operating fuel-rich from stoichiometric, power is increased and knock is decreased. The study also shoved the significant result that as nitromethane concentration is increased in both nitroethane and nitropropane as co-solvents, as replacements for methanol in traditional racing fuel blends, power is increased while knock severity decreases.
Citation: Bush, K., Germane, G., and Hess, G., "Improved Utilization of Nitromethane as an Internal Combustion Engine Fuel," SAE Technical Paper 852130, 1985, https://doi.org/10.4271/852130. Download Citation
Author(s):
K. C. Bush, Geoff J. Germane, Gary L. Hess
Pages: 12
Event:
1985 SAE International Fall Fuels and Lubricants Meeting and Exhibition
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Racing engines
Knock
Ignition timing
Methanol
Combustion and combustion processes
Engine cylinders
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