The effect of ISO-Butanol additive in Methanol-Gasoline blends on engine performance and exhaust emission using spark ignition engine / Hazim Sharudin

The application of alcohol fuels on spark ignition (SI) engine has recently become an
attraction as an alternative to gasoline fuel. This is due to the concerns on
environmental pollution, depletion of fossil fuels, and stringent regulation. Alcohol
fuel is indeed an attractive alternative fuel as it had been found to improve octane
number, enhance oxygen content, and reduce carbon monoxide emissions. One of the
well-known alcohol fuels is methanol fuel that can be blended with gasoline to
produce better engine operation in spark ignition engine. Blended methanol-gasoline
fuels can be improved further by adding higher carbon number alcohol, such as isobutanol,
as they have higher energy content and they are able to displace more
gasoline fuels than methanol-gasoline fuels. However, studies concerning the addition
of iso-butanol in lower ratio methanol-gasoline fuels, specifically on fuel properties
and engine operation, have not been investigated thoroughly. Therefore, this research
looked into the feasibility of the iso-butanol additive (5, 10, 15%) into a lower ratio of
5% methanol-gasoline blended fuel (M5) on unmodified spark ignition engine. The
performances of iso-butanol additive in methanol-gasoline blends were compared with
base gasoline fuel. Experimental investigation on the characterization of the isobutanol
additive on lower ratio methanol-gasoline blended fuel was first performed.
The characterization of fuel involved was density, lower heating value, kinematic
viscosity, latent heat of vaporization, Reid of vapour pressure and oxygen content.
Other than that, engine testing was performed by using four-cylinder spark ignition
engine to test all the blended fuel involved. The engine performance, such as brake
power, brake thermal efficiency (BTE), brake specific fuel consumption (BSFC), and
exhaust gas temperature (EGT), had been determined. For exhaust emissions, the
parameters, such as oxides of nitrogen (NOx), carbon monoxide (CO), carbon dioxide
(CO2), and unburned hydrocarbon (HC), were also measured. From the test results,
improvement was recorded at kinematic viscosity, density, latent heat of vaporization,
and oxygen content for iso-butanol additive of 5%, 10%, and 15% with 5% of the
methanol-gasoline fuel blends. On the other hand, a reduction was recorded for both
heating value and Reid vapour pressure for all blended fuel with iso-butanol additive
in comparison to that of base fuel. Moreover, as for engine performance, M5B15
displayed improvement in engine brake power, BTE, and EGT compared to other
blended fuels. Nevertheless, higher fuel consumption was recorded for all methanolgasoline
blended fuels with iso-butanol additive compared to base gasoline fuel. In
terms of engine emissions, M5B15 exhibited the lowest CO and HC emissions
compared to base gasoline fuel. However, the increasing trend projected by NOx and
CO2 emissions had been recorded in all iso-butanol additive in methanol-gasoline
fuels with M5B15 exerting the highest emissions. Thus, it can be concluded that isobutanol
additives are indeed a viable option to be blended with the existing lower ratio
methanol-gasoline as an alternative fuel for the operation of spark ignition engine.