Effect of triacetin as an oxygenated additive in algae biodiesel fuelled CI engine combustion, performance, and exhaust emission analysis

[Display omitted] •3rd generation algae oil possess improved fuel properties of high cetane number.•Triacetin additive have low cetane number results in combustion delay.•High combustion pressures recorded after TDC at 6 degrees of CA.•The exhaust emissions of UHC (70.53%), NOx (12.81%) and CO (25.5...

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Bibliographic Details
Published in:Fuel (Guildford) 2023-04, Vol.338, p.127366, Article 127366
Main Authors: Kalyani, Teku, Prasad, Lankapalli Sathya Vara, Kolakoti, Aditya
Format: Article
Language:English
Subjects:
Additive
Algae Biodiesel
CI Engine
Performance and Emissions
Triacetin
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Summary:[Display omitted] •3rd generation algae oil possess improved fuel properties of high cetane number.•Triacetin additive have low cetane number results in combustion delay.•High combustion pressures recorded after TDC at 6 degrees of CA.•The exhaust emissions of UHC (70.53%), NOx (12.81%) and CO (25.51%) are low.•4 %Triacetin in ABD40 is the best choice as a diesel fuel replacement. In this experimental investigation, oxygenated additive triacetin is used in an algae oil biodiesel-diesel blend (ABD40) to examine the combustion, performance and exhaust emissions from a single-cylinder 3.5 kW diesel engine. Different percentages of additive (2 %, 4 %, 6 % and 8 % by volume) are mixed in ABD40, and the experiments are performed at varying engine loads by maintaining a fixed engine speed. The combustion results at full load (100 %) reveal that 4 % triacetin in ABD40 achieves high combustion pressure than diesel fuel (DF) and other biodiesel blends. Similarly, a high BTE of 30.39 % is achieved for 4 % triacetin in ABD40 than other biodiesel blends. However, it is 7.23 % lesser than mineral diesel fuel. Due to high density and kinematic viscosity, the fuel consumption for biodiesel blends is recorded as higher than DF. Furthermore, low exhaust emissions are acclaimed for 4 % additive triacetin in ABD40 than DF, and a drop of CO (25.51 %), NOx (12.81 %), UHC (70.53 %) and Smoke (14.85 %) is recorded at 100 % load compared to DF. Hence, it is concluded that 4 % triacetin in ABD40 is the better choice as a diesel fuel replacement, and significant performance and emissions results are possible with the addition of oxygenated additive triacetin, which enhanced fuel properties of high heating value and cetane number.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2022.127366