@misc{Dond_Dipak_Performance,
 author={Dond, Dipak and Barshikar, Raghavendra Rajendra and Ghongade, Harshvardhan and Bhadre, Anjali and Dond, Shantaram},
 howpublished={online},
 publisher={Zielona Góra: Uniwersytet Zielonogórski},
 language={eng},
 abstract={The low cost and wide availability of used cooking oil make it a desirable feedstock for the generation of biodiesel. In this study, Three distinct hydrogen enrichment values (4 lit/min, 6 lit/min, and 8 lit/min) and nanoparticle concentrations of 50, 100, and 150 PPM) are combined with used cooking oil blends (10%, 15%, and 20%) to evaluate the CRDI single-cylinder diesel engine`s efficiency and emission properties.},
 abstract={Split injection technique was used in the experiments to investigate the impact on emissions and engine efficiency. The outcomes reveal a significant improvement in brake thermal efficiency over standard diesel fuel, up to 8%. In addition, a noteworthy decrease was noted in particular fuel consumption and emissions parameters, including smoke, hydrocarbons (HC), and carbon monoxide (CO), under all experimental setups.},
 abstract={On the other hand, there was a minor rise in nitrogen oxide (NOx) emissions. With encouraging gains in performance and emissions characteristics, this study clarifies the feasibility of using used cooking oil blends with hydrogen nanoparticle enrichment as a sustainable alternative fuel for CRDI diesel engines. Increased environmental friendliness and overall efficiency could be achieved with this alternative fuel technology with additional refinement and optimization of engine operating parameters.},
 type={artykuł},
 title={Performance analysis of the CDRI diesel engine`s performance and emission parameters blended with leftover cooking oil, additional nanoparticles, and hydrogen enrichment},
 keywords={CRDI single cylinder diesel engine, waste cooking oil, hydrogen, TiO2 nanoparticles, performance characteristics},
}