AI Article Synopsis
- Petroleum fuels are depleting and causing emissions issues, prompting the need for eco-friendly alternatives like biodiesel, which is produced by converting vegetable oils.
- Biodiesel derived from coconut fatty acid distillate (BCFAD) shows promise, particularly when enhanced with alumina nanoparticles, resulting in improved thermal efficiency and reduced hydrocarbon and carbon monoxide emissions compared to diesel.
- While using 100 ppm of nanoparticles improves performance, it's worth noting that there is a slight increase in NOx emissions; overall, BCFAD with nanoparticles is deemed suitable for diesel engines.
Article Abstract
Petroleum fuels are commonly used for automobiles. However, the continuous depletion and exhaust gas emission causes serious problems. So, there is a need for an alternative eco-friendly fuel. Biodiesel is a type of fuel manufactured through a process called transesterification, which involves converting vegetable oils into a usable form. The process parameters of the transesterification process were optimized using the Taguchi method to achieve maximum biodiesel yield. However, the main problem of biodiesel is its high cost which could be reduced by using low-cost feedstock. To address this challenge, biodiesel (BCFAD) is derived from coconut fatty acid distillate (CFAD), a by-product obtained from refining coconut oil. This work uses BCFAD and BCFAD with Alumina nanoparticles as fuels. Alumina nanoparticles in the mass fraction of 25 ppm, 50 ppm, and 100 ppm are dispersed in BCFAD. The investigation results reveal an increase of 6.5% in brake thermal efficiency for BCFAD with 100 ppm nanoparticles when compared to BCFAD. There is a reduction of 29.29% of hydrocarbon and 34% of Carbon monoxide emissions with BCFAD100 in comparison with diesel. However, there is a marginal increase in NOx emission with the increase in nanoparticles. The heat release rate and cylinder pressure of BCFAD100 are comparable to diesel fuel. It was concluded that the utilization of BCFAD with a nanoparticle dispersion of 100 ppm is suitable for direct use as fuel in diesel engines.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11163000 | PMC |
| http://dx.doi.org/10.1038/s41598-024-63862-7 | DOI Listing |
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