Diesel engine performance and emission characteristics of biodiesel produced by the peroxidation process

Diesel engine performance and emission characteristics of biodiesel produced by the peroxidation process

Biodiesel is an alternative fuel that is cleaner than petrodiesel. Biodiesel can be used directly as fuel for a diesel engine without having to modify the engine system. It has the major advantages of having high biodegradability, excellent lubricity and no sulfur content. In this study, the biodies...

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Bibliographic Details
Published in:Fuel (Guildford) Vol. 85; no. 3; pp. 298 - 305
Main Authors: Lin, Cherng-Yuan, Lin, Hsiu-An
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-02-2006
Elsevier
Subjects:
Applied sciences
Biodiesel
Diesel engine
Emission characteristics
Energy
Energy. Thermal use of fuels
Engines and turbines
Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc
Exact sciences and technology
Peroxidation process
Diesel engine
Peroxidation process
Emission characteristics
Biodiesel
Nitrogen oxide
Alternative fuel
Biodegradability
Diesel fuel
Diesel engine: Peroxidation process
Carbon dioxide
Biofuel
Transesterification
Pollutant emission
Experimental result
Carbon monoxide
Thermal efficiency
Performance
Peroxidation
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Summary:Biodiesel is an alternative fuel that is cleaner than petrodiesel. Biodiesel can be used directly as fuel for a diesel engine without having to modify the engine system. It has the major advantages of having high biodegradability, excellent lubricity and no sulfur content. In this study, the biodiesel produced by a transesterification technique was further reacted by using a peroxidation process. Four types of diesel fuel, biodiesel with and without an additional peroxidation process, a commercial biodiesel and ASTM No. 2D diesel were compared for their fuel properties, engine performance and emission characteristics. The experimental results show that the fuel consumption rate, brake thermal efficiency, equivalence ratio, and exhaust gas temperature increased while the bsfc, emission indices of CO 2, CO and NO x decreased with an increase of engine speed. The three biodiesels showed a higher fuel consumption rate, bsfc, and brake thermal efficiency, while at the same time exhibited lower emission indices of CO and CO 2 as well as a lower exhaust gas temperature when compared to ASTM No. 2D diesel. Moreover, the biodiesel produced with the additional peroxidation process was found to have an oxygen content, weight proportion of saturated carbon bonds, fuel consumption rate, and bsfc that were higher than the biodiesel produced without the additional process; while at the same time the brake thermal efficiency, equivalence ratio, and emission indices of CO 2, CO and NO x were found to be lower. In particular, biodiesel produced with the addition of the peroxidation process had the lowest equivalence ratio and emission indices of CO 2, CO and NO x among all of the four test fuels. Therefore, the peroxidation process can be used to effectively improve the fuel properties and reduce emissions when biodiesel is used.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2005.05.018