2019
DOI: 10.1177/0958305x19893045
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Effect of compression ratio variation and waste cooking oil methyl ester on the combustion and emission characteristics of an engine

Abstract: In this research, a thermodynamic zero-dimensional model has been done to predict performance characteristics (in-cylinder pressure, heat released, and the thermal efficiency) of a diesel engine with the use of biodiesel–diesel fuel blends (B0, B20, B50, B80, and B100) at different compression ratios (14, 15, 16, 17, and 18). The corresponding mathematical and thermodynamic relationships have been solved in MATLAB. Based on the experimental tests, it was found that the developed model can predict the engine va… Show more

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Cited by 17 publications
(9 citation statements)
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“…Table 4 shows the selected ASTM International requirements for B100, where these specifications are regularly updated and modified. The use of B100 resulted in lower cylinder pressure and heat release rate than diesel oil and blended biodiesel especially at low and medium loads, as shown in previous studies (Aydın, 2020;Hojati & Shirneshan, 2020;Isik, 2021). Although it was tested with different types of B100, it also showed the same trend.…”
Section: Standard Of B100mentioning
confidence: 58%
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“…Table 4 shows the selected ASTM International requirements for B100, where these specifications are regularly updated and modified. The use of B100 resulted in lower cylinder pressure and heat release rate than diesel oil and blended biodiesel especially at low and medium loads, as shown in previous studies (Aydın, 2020;Hojati & Shirneshan, 2020;Isik, 2021). Although it was tested with different types of B100, it also showed the same trend.…”
Section: Standard Of B100mentioning
confidence: 58%
“…The decrease in thermal efficiency can be seen in Figures 6 and Figure Aydın (2020) described the decrease in thermal efficiency with B100 caused by poor combustion efficiency due to spray atomization. Balasubramanian et al, (2021) also explained the decrease in thermal efficiency that occurred in B100 due to its high viscosity and low heating value, as also described by Sudarmanta et al, (2020) However, thermal efficiency in B100 applications can be improved through; (1) increasing the compression ratio (CR) (Hojati & Shirneshan, 2020), (2) adding ethyl proxitol and methyl proxitol catalysts to B100 (Aydın, 2020), and adding alcohols such as pentanol, butanol, and octanol to B100 (Isik, 2021). One of the results of efforts made to improve thermal efficiency is shown in Figure 8.…”
Section: Thermal Efficiencymentioning
confidence: 78%
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“…The variations in NOx emission versus engine load regarding different nanoparticle-diesel fuel blends are shown in Figure 19. As seen in this figure, the concentration of NOx in the exhaust gas of the engine increased at higher engine loads, which is related to the increase in combustion temperature at higher engine loads (Hojati 2019, Salehian 2020. Based on the findings, a significant reduction (20% on average) was observed in NOx emission following the addition of nanoparticles (especially Al2O3 nanoparticles) to neat fuel diesel.…”
Section: Effect Of Nanoparticles On Nox Emissionmentioning
confidence: 60%