Publication detail
Optimization of ternary green diesel blends for diesel/palm methyl ester/alcohol using product design optimization
Razak, N.H. Hashim, H. Yunus, N.A. Klemeš, J.J. Phoon, L.Y.
English title
Optimization of ternary green diesel blends for diesel/palm methyl ester/alcohol using product design optimization
Type
journal article in Scopus
Language
en
Original abstract
Among many alternative fuels, oxygenated fuels like biodiesel and biomass-based energy (biofuel) such as bioalcohol have greater potential to enhance engine performance and mitigate particulate exhaust emissions in compression-ignition (CI) engines. The main objective of this study is to determine the optimal ternary green diesel (GD) blends formulation by identifying the most feasible diesel/biodiesel/alcohol that meeting the ASTM D975, Standard Specification for petro-diesel. Three steps of product design optimization (PDO) has been performed, (1) specify the fuel target properties based on Euro5; (2) optimize the formulation for ternary GD blends; (3) rank and select the optimal ternary GD blends. The ranking and selecting the optimal ternary GD blends were focused on the correlation of the higher cetane number (CN) over the cost of fuel. The PDO model indicated the most cost-effective and environmentally friendly diesel/biodiesel/alcohol ternary GD blends shall contain 74 % Malaysia petro-diesel, 16 % palm methyl ester (PME) and 1 % of butanol. Notably, the higher CN, the shorter the fuel ignition and the better the combustion efficiency. High CN fuels can significantly burn faster and more completely and hence reduce the harmful exhaust emissions such as SO2.
English abstract
Among many alternative fuels, oxygenated fuels like biodiesel and biomass-based energy (biofuel) such as bioalcohol have greater potential to enhance engine performance and mitigate particulate exhaust emissions in compression-ignition (CI) engines. The main objective of this study is to determine the optimal ternary green diesel (GD) blends formulation by identifying the most feasible diesel/biodiesel/alcohol that meeting the ASTM D975, Standard Specification for petro-diesel. Three steps of product design optimization (PDO) has been performed, (1) specify the fuel target properties based on Euro5; (2) optimize the formulation for ternary GD blends; (3) rank and select the optimal ternary GD blends. The ranking and selecting the optimal ternary GD blends were focused on the correlation of the higher cetane number (CN) over the cost of fuel. The PDO model indicated the most cost-effective and environmentally friendly diesel/biodiesel/alcohol ternary GD blends shall contain 74 % Malaysia petro-diesel, 16 % palm methyl ester (PME) and 1 % of butanol. Notably, the higher CN, the shorter the fuel ignition and the better the combustion efficiency. High CN fuels can significantly burn faster and more completely and hence reduce the harmful exhaust emissions such as SO2.
Keywords in English
ternary green diesel (GD) blends; diesel; alcohol; product design optimization (PDO); ternary GD blends; palm methyl ester (PME);
Released
31.01.2019
Publisher
Italian Association of Chemical Engineering - AIDIC
ISSN
2283-9216
Number
72
Pages from–to
391–396
Pages count
6
BIBTEX
@article{BUT160682,
author="Jiří {Klemeš},
title="Optimization of ternary green diesel blends for diesel/palm methyl ester/alcohol using product design optimization",
year="2019",
number="72",
month="January",
pages="391--396",
publisher="Italian Association of Chemical Engineering - AIDIC",
issn="2283-9216"
}