Properties and use of Moringa oleifera biodiesel and diesel fuel blends in a multi-cylinder diesel engine

Properties and use of Moringa oleifera biodiesel and diesel fuel blends in a multi-cylinder diesel engine

•Potential of biodiesel production from crude Moringa oleifera oil.•Characterization of M. oleifera biodiesel and its blend with diesel fuel.•Evaluation of M. oleifera biodiesel blend in a diesel engine. Researchers have recently attempted to discover alternative energy sources that are accessible,...

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Bibliographic Details
Published in:Energy conversion and management 2014-06, Vol.82, p.169-176
Main Authors: Mofijur, M., Masjuki, H.H., Kalam, M.A., Atabani, A.E., Arbab, M.I., Cheng, S.F., Gouk, S.W.
Format: Article
Language:eng
Subjects:
Applied sciences
Biodiesel
Biodiesel production
Blending
Blends
Brakes
Characterization
Crude oil, natural gas and petroleum products
Diesel engines
Diesel fuels
Economics
Emissions
Emissions control
Energy
Energy. Thermal use of fuels
Engine performance
Engines and turbines
Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc
Exact sciences and technology
Fuels
Moringa oleifera
Petroleum products, gas and fuels. Motor fuels, lubricants and asphalts
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Summary:•Potential of biodiesel production from crude Moringa oleifera oil.•Characterization of M. oleifera biodiesel and its blend with diesel fuel.•Evaluation of M. oleifera biodiesel blend in a diesel engine. Researchers have recently attempted to discover alternative energy sources that are accessible, technically viable, economically feasible, and environmentally acceptable. This study aims to evaluate the physico-chemical properties of Moringa oleifera biodiesel and its 10% and 20% by-volume blends (B10 and B20) in comparison with diesel fuel (B0). The performance and emission of M. oleifera biodiesel and its blends in a multi-cylinder diesel engine were determined at various speeds and full load conditions. The properties of M. oleifera biodiesel and its blends complied with ASTM D6751 standards. Over the entire range of speeds, B10 and B20 fuels reduced brake power and increased brake specific fuel consumption compared with B0. In engine emissions, B10 and B20 fuels reduced carbon monoxide emission by 10.60% and 22.93% as well as hydrocarbon emission by 9.21% and 23.68%, but slightly increased nitric oxide emission by 8.46% and 18.56%, respectively, compared with B0. Therefore, M. oleifera is a potential feedstock for biodiesel production, and its blends B10 and B20 can be used as diesel fuel substitutes.
ISSN:0196-8904
1879-2227