Experimental Study on Engine and Emissions Performance of Renewable Diesel Methanol Dual Fuel (Rmdf) Combustion

24 Pages Posted: 27 Jul 2023

See all articles by Khanh D. Cung

Khanh D. Cung

affiliation not provided to SSRN

Julian Wallace

affiliation not provided to SSRN

Vickey Kalaskar

affiliation not provided to SSRN

Edward Mike Smith

affiliation not provided to SSRN

Thomas Briggs

affiliation not provided to SSRN

Bitsis Christopher

affiliation not provided to SSRN

Abstract

Methanol (MeOH) and renewable diesel (RD) are being considered promising alternative fuels for the de-fossilization of internal combustion engines (ICE). This study provides an experimental investigation on the use of both fuels under dual-fuel combustion mode: port fuel injection (PFI) of MeOH and direct injection (DI) of RD. The combustion mode is labeled as RMDF (renewable diesel methanol dual fuel). The experiment was performed in a heavy-duty single-cylinder engine (SCE) equipped with combustion and emissions measurements and analysis for engine efficiency and emissions of soot and NOX (oxides of nitrogen). MeOH substitution rate, which is the mass ratio of injected MeOH fuel to total injected fuels of both MeOH and RD, was varied to under its effect on engine efficiency and emissions. Different MeOH substitutions were tested for low (6.9 bar gIMEP) to full (23.5 bar gIMEP) engine load conditions at a fixed engine speed of 1200 RPM.Test results showed that higher MeOH substitution rates can reduce NOX emissions effectively while improving engine thermal efficiency. However, a higher MeOH substitute rate can result in longer ignition delay at low load, and increased emissions of carbon monoxide (CO) and unburned hydrocarbon (UHC). Increased maximum pressure rise rate (MPRR) at high load condition was observed as the MeOH substitution rate increased. MPRR is not sensitive to the change in MeOH at low load condition. Higher MeOH substitution rate also results in longer ignition delay at low load, but slightly shorter ignition delay at high load. Overall, the results from this study suggest that RMDF can be considered an option to achieve a cleaner and more efficient engine. However, further optimization of combustion designs and engine operating strategy need to be considered to improve combustion loss from RMDF emissions, possibly due to the lower reactivity of MeOH.

Keywords: renewable diesel, methanol, defossilization, NOX, diesel engine, combustion

Suggested Citation

Cung, Khanh D. and Wallace, Julian and Kalaskar, Vickey and Smith, Edward Mike and Briggs, Thomas and Christopher, Bitsis, Experimental Study on Engine and Emissions Performance of Renewable Diesel Methanol Dual Fuel (Rmdf) Combustion. Available at SSRN: https://ssrn.com/abstract=4523185 or http://dx.doi.org/10.2139/ssrn.4523185

Khanh D. Cung (Contact Author)

affiliation not provided to SSRN ( email )

Julian Wallace

affiliation not provided to SSRN ( email )

Vickey Kalaskar

affiliation not provided to SSRN ( email )

Edward Mike Smith

affiliation not provided to SSRN ( email )

Thomas Briggs

affiliation not provided to SSRN ( email )

Bitsis Christopher

affiliation not provided to SSRN ( email )

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