HighlightsBinary blends of biodiesel from Cotton, Jatropha and Neem with diesel were prepared in form of B5C, B10C, B15C, B20C, B25C and B30C for Cotton at 5%, 10%, up to 30%.This was similarly done for Jatropha and Neem biodiesel designated as B5J and B10N, etc.A set of multi-blends of all the 3biodiesel with diesel were also prepared.The fuel samples were used to run a Cusson 4-cylinder, stationary diesel engine with data logger system.The exhaust emissions of fuel during the combustion process were measured using IMR 1400gas analyser to detect the composition of flue gases at 1500rpm, 2000rpm, and 2500rpm engine speeds.

    AbstractBiodiesel considerably decrease the CO and CO2 emissions and its blends reduce NOX emissions. In this work, binary blends of biodiesel from Cotton, Jatropha and Neem with diesel were prepared in form of B5C, B10C, B15C, B20C, B25C and B30C for Cotton at 5%, 10%, 15%, 20%, 25% and 30% respectively. This was similarly done for Jatropha and Neem biodiesel designated as B5J and B10N, etc. A set of multi-blends of all the 3biodiesel with diesel were also prepared. The fuel samples were used to run a Cusson’s 4-cylinder, stationary diesel engine with data logger system. The exhaust emissions of fuel during the combustion process were measured using IMR 1400gas analyser to detect the composition of flue gases at 1500rpm, 2000rpm, and 2500rpm engine speeds. It was found that, B20C has the lowest exhaust temperature, lowest percentage losses, highest combustion efficiency, and lowest NOX and CO2 emissions, but highest SO2 emissions although with negligible percentage. The binary biodiesel blends are better than the multi-blends in terms of exhaust emissions reduction.


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    Title :

    Exhaust emissions of biodiesel binary and multi-blends from Cotton, Jatropha and Neem oil from stationary multi cylinder CI engine


    Contributors:
    Kaisan, M.U. (author) / Anafi, F.O. (author) / Nuszkowski, J. (author) / Kulla, D.M. (author) / Umaru, S. (author)


    Publication date :

    2017-01-01


    Size :

    12 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English