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Publikacje Pracowników Politechniki Lubelskiej

MNiSW
70
Lista 2021
Status:
Autorzy: Kumar A. Naresh, Ashok Bragadeshwaran, Kasianantham Nanthagopal, Ong Hwai Chyuan, Gęca Michał Jan, Victor John , Vignesh Rajasekar, Jeevanantham A. Kannan, Kannan Chidambaram, Kishore Pisipaty Srinivas
Dyscypliny:
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Rok wydania: 2022
Wersja dokumentu: Drukowana | Elektroniczna
Język: angielski
Numer czasopisma: 5
Wolumen/Tom: 12
Strony: 1525 - 1540
Impact Factor: 4,0
Web of Science® Times Cited: 22
Scopus® Cytowania: 20
Bazy: Web of Science | Scopus
Efekt badań statutowych NIE
Materiał konferencyjny: NIE
Publikacja OA: NIE
Abstrakty: angielski
The present work has enabled to aspire the enhancement of palm biodiesel viability for compression ignition (CI) engine applications using reformulation strategy by the addition of higher alcohols. In this work, 20% and 30% of 1-decanol and n-hexanol were used for ternary blend preparation along with palm biodiesel concentration as 20–30% and 50% diesel fuels for combustion, emission, and performance behaviour investigation in CI engine. Furthermore, the experimental results were also compared with 100% palm biodiesel (P100) and pure diesel (D100) and a binary blend of D50B50 fuels. The experimental study has revealed that the presence of higher alcohols in the ternary blends has improved the cylinder pressure and heat release rate whereas the same trend was not evident in binary biodiesel blend. All the ternary blends of higher alcohols-biodiesel and diesels have shown higher brake thermal efficiency and reduction in brake-specific fuel consumption. At the same time, decanol and hexanol addition in the palm biodiesel-diesel blends has favoured in all exhaust emission reductions with slight exemption in NOx emission. The experimental results are optimized through multivariate and desirability analyses for identifying the effective composition of blend. Multivariate analysis has revealed that the higher alcohol proposition in the ternary blend was more influential than the type of higher alcohol. Furthermore, the desirability study has also validated the prescribed proportion with the maximum error of 6.17% for D50P22DC28 and 4.84% for D50P26HE24. Finally, the research concludes that decanol would be the preferable choice for ternary blend preparation than hexanol due to its overall better performance.