Investigation of the effect of N-Decanol addition to safflower seed oil biodisel on emission parameters of a single cylinder diesel engine
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28.08.2023Metadata
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Deviren, H. ve Aydın, H. (2023). Investigation of the effect of N-Decanol addition to safflower seed oil biodisel on emission parameters of a single cylinder diesel engine. Presented at the 1st Bilsel International Ahlat Scientific Researches Congress, August,15-15, Bitlis.Abstract
The high level of emissions and pollution caused by diesel engines increases the importance of developing low-emission and high-efficiency fuel technologies. Implementing various modifications in engines has the potential to reduce emissions, however, these adjustments can lead to technical difficulties and inefficiencies in terms of cost. In this case, as an alternative solution, the use of diesel fuel (DF), biodiesel (B100), nanoparticle and light or heavy alcohol mixtures can be considered; these fuels can help engines produce less polluting emissions. As it is known, the main reason why internal combustion engines emit emissions such as particulate matter, hydrocarbon (HC), and carbon monoxide (CO) into the atmosphere is incomplete combustion of the fuel. The high oxygen content of fuels such as biodiesel and alcohol can solve these combustion problems. The focus of this study is a detailed investigation of the effect on emissions of mixtures of DF, B100 derived from safflower seed oil with a low Free Fatty Acid (%FFAs) value, and n-decanol. Emission values obtained for DF, B100, 50%/50% volume ratio diesel/biodiesel (DF50B50), 50%/50% volume ratio diesel/n-decanol (DF50DE50), 50%/25%/25% volume ratio diesel/biodiesel/n-decanol (DF50B25DE25), Emission values of 50%/35%/15% diesel/biodiesel/n-decanol (DF50B35DE15) and 50%/45%/5% diesel/biodiesel/n-decanol (DF50B45DE5) blends were compared. Among these blends, compared to DF at maximum load, DF50B50, DF50DE50, DF50B25DE25, DF50B35DE15, and DF50B45DE5 fuels reduced smoke opacity (SO) by 80.17%, 86.78%, 54.55%, 21.49%, and increased it by 15.70%, respectively. Under the same load conditions, compared to DF, NOx emissions were reduced by 19.18%, 21.38%, 17.30%, increased by 34.91%, and reduced by 15.72% respectively with DF50B50, DF50DE50, DF50B25DE25, DF50B35DE15, and DF50B45DE5 fuels. Under the same load conditions, CO emissions were also reduced by 23.08%, 15.38%, 16.15%, increased by 40%, and reduced by 16.92% respectively with DF50B50, DF50DE50, DF50B25DE25, DF50B35DE15, and DF50B45DE5 fuels.