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Biodiesel from biological materials is receiving attention as alternative fuel. This investigation compared quality of biodiesel produced from lipase-transesterified palm oil (PO) and palm kernel oil (PKO) based on fatty acid methyl esters (FAME) and fuel properties. Biodiesel yield was optimized using three-level four-factor of Design Expert
Production and characterization of biodiesel using palm kernel oil; fresh and recovered from spent bleaching earth Abiodun Aladetuyi 1 , Gabriel A. Olatunji 1 , David S. Ogunniyi 2 , Temitope E. Odetoye 2* , Stephen O. Oguntoye 1
In general, biodiesel can be produced through transesterification reaction, in which triglyceride from vegetable oil is reacted with short-chain alcohol (e.g., methanol) in the presence of catalyst as shown in Equation (1). Soybean, rapeseed, sunflower, and palm oils are among the common vegetable oils that are used in biodiesel production.
Dangerous environmental consequences and market unpredictability of fossil fuels have necessitated the need for sustainable large-scale production of biofuel in Nigeria. Keywords: Energy, Bioconversion, Renewable energy resources, Energy sustainability, Fuel technology, Industrial energy consumption, Palm olein, Biodiesel, Cleaner energy,
Biodiesel Production from Crude Palm Oil Using Sulfuric Acid and K 2 O Catalysts through a Two-Stage Reaction Maulidiyah Maulidiyah 1,*, Abdul Haris Watoni 1, Nur Maliana 1, Irwan Irwan 1, La Ode Agus Salim 1, Zul Arham 21
The density of the biodiesel from groundnut oil was found to be 850.80kg/m3 while that of palm kernel oil gave 848.0kg/m3. The kinematic and dynamic viscosities of groundnut oil bio-diesel were
Palm kernel shell biochar SAC: Solid acid catalyst WPO: Waste palm oil PFAD: Palm fatty acid destilate References Abdul Kapor NZ, Maniam GP, Rahim MHA, Yusoff MM (2017) Palm fatty acid distillate as a potential source for
Biodiesel production in the presence of sulfonated mesoporous ZnAl2O4 catalyst via esterification of palm fatty acid distillate (PFAD). Fuel. 178253-262. Methyl ester produced by esterification of palm fatty acid distillate (PFAD) is considered as a non-toxic alternative and biodegradable source of energy.
biodiesel production. In transesterification reaction homogeneous catalysts (alkali or acid) or heterogeneous catalysts can be used. The catalysts split the oil into glycerine and biodiesel and they could make production Fig.1
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