Biodiesel has been getting attractive recently due to the scarcity of petroleum, environmental issues and high oil prices. Among several feedstocks for biodiesel production, the potential of Jatropha curcas oil (JCO) for biodiesel production is well recognized. Transesterification is a techonology to transfer triglycerides into biodiesel. However, intoxication by methanol and mass transfer resistance hamper further applicability of transesterification. This study investigated the impact of different catalytic approaches and technologies on transesterification efficiency for jatropha oil; meanwhile, kinetic constants and variation of each constituent of fatty acid were also estimated during transesterification. Reactions were carried out in spin flasks filled with jatropha oils, and heated to the reaction temperature with stirring rate at 300 rpm. The reactions started when the alcohols and catalysts were added to the flasks. The result showed the conversions of fatty acid methyl ester (FAME) were from 37.73 to 63.91% and reduction of the activation energy from 54.9 kJ/mole to 23.0 kJ/mole changing from stepwise methanol addition to continuous addition at 40oC during lipase transesterification, but no significant effect for ethanol. In addition, the conversion of FAME was improved from 37.73 to 56.23% through 40 W ultrasound assisted, and the whole reaction time was shortened about 3 hours by 50 W microwave assisted. The last but not the least, faster palmitic acid methyl ester conversion of jatropha oil was found while the negative impact of double bonds of linoleic acid on transesterification efficiency. In addition, Microwave assisted process could improve the conversion of the constitute with longer fatty acid chain and unsaturated fatty acid.