Sarin et al. (2009) studied the oxi

Sarin et al. (2009) studied the oxidative stability of Jatropha biodiesel (Jatropha curcas) in the presence of metal contaminants, such as Fe, Ni, Mn, Co and Cu.

The induction time (measure of oxidative stability) decreased due to the acceleration of biodiesel degradation processes.

The induction time was improved upon addition of the antioxidant butylhydroxytoluene (BHT), however, the higher the content of metals in the biodiesel, the greater the added amount of antioxidant was required, which can burden the price of the final product.

In addition, the presence of these metals can interfere with the proper functioning of engines, and moreover, metals can be released into the environment when the biofuel is burned, causing contamination of soils, rivers and atmosphere ( Pillay et al., 2009).

Metals are primarily responsible for the deterioration of biodiesel catalyzing the oxidation processes of carbon chains. The result is the formation of short chain organic acids, ketones, aldehydes, hydrocarbons, starches, polymers and dimers.

These products cause clogging of nozzles and fuel filters, improper burning, corrosion of metal parts and other problems that interfere with the proper functioning of the engine ( Fazal et al., 2014, Jain and Sharma, 2014, Yaakob et al., 2014 and Zuleta et al., 2012).