As fossil fuel reserves continue to diminish and environmental concerns intensify, the search for renewable, sustainable, and cleaner alternatives has gained momentum. Biodiesel derived from tobacco seed oil offers an eco-friendly and non-edible option for compression ignition (CI) engines. In this study, tobacco seed oil methyl ester (TSOME) was blended with diesel at B10, B20, B30, and B40 ratios, each supplemented with 0.5 wt.% cerium oxide (CeO 2 ) nanoparticles to enhance combustion efficiency and emission behavior. A combined framework of experimental evaluation, machine learning (ML) prediction, and response surface methodology (RSM) optimization was employed. Performance and emission characteristics were assessed using a single-cylinder, four-stroke, water-cooled Kirloskar CI engine under varying loads (25–100%). Standard instrumentation measured brake thermal efficiency (BTE), brake specific fuel consumption (BSFC), oxides of nitrogen (NOx), carbon monoxide (CO), hydrocarbons (HC), smoke opacity, and exhaust gas temperature (EGT). Results showed that B10 and B20 blends achieved efficiencies comparable to diesel at higher loads, with <1% deviation in BTE and BSFC. All biodiesel blends exhibited substantial reductions in CO, HC, and smoke emissions, although NOx emissions increased due to higher in-cylinder temperatures. Among the ML models, artificial neural networks (ANN) outperformed random forest (RF) and support vector regression (SVR), achieving R 2 values above 0.99 in the experimentally studied operational field. RSM optimization identified B20–B30 blends at 75–100% engine load as the optimum operating range, balancing efficiency and emissions. The findings indicate that biodiesel mixtures in which the CeO 2 nano-additive TSOME is used are a feasible and compatible partial diesel replacement in compression-ignition engines that are run under controlled conditions, and hence investments into the real-time combustion diagnostics, adaptive injection sets, and tailored fuel-nanoparticle complexes are justified.
Al-Nussairi et al. (Sun,) studied this question.