Abstract

This scholarly paper examines the impact of biodiesel, utilized as a substitute for conventional diesel fuel, on the oil marotti. This marotti is derived from marotti seeds and is primarily found in regions such as Kerala, Andhra Pradesh, among others. The properties of viscosity, high stability, and low electrical conductivity are of paramount importance. In automotive applications, oil marotti served to lubricate the engine, facilitate injector operation, degum the filtration system, and address various other concerns. It played a role in the oil esterification process, which is employed to mitigate the aforementioned issues. The appropriate method for resolving these challenges was transesterification. During this process, the methyl ester of the oil marotti was converted into methyl ester. Biodiesel was combined with an ester to create diverse variants of oil marotti. This research investigated the transformation of oil marotti into ester and derived its findings from diesel. The mechanism of methoxymethyl in conjunction with biodiesel indicates that diesel engines do not necessitate substantial modifications. The dissipation of thermal energy through the biodiesel process within exhaust emissions diminishes as the concentrations of carbon dioxide and hydrochloric acid increase. There are no emissions associated with lower methoxymethyl due to its combustion.