Synthesis and evaluation of novel acyl derivatives from jatropha oil as potential lubricant basestocks.

Abstract

A novel class of jatropha oil-based acylated derivatives from hydroxy alkyl esters of jatropha fatty acids (C1, C3, C4, and C8) and various anhydrides (C2, C3, C4, and C6) were synthesized and their physicochemical and lubricant properties reported. Jatropha fatty acid alkyl esters were dihydroxylated using the in situ performic acid method and further acylated with different anhydrides to produce acylated derivatives. Acylated derivatives of dihydroxy jatropha fatty acid alkyl esters were charaterized by NMR, FTIR, GC, and GC-MS analysis and were evaluated for their viscosity, viscosity index, pour and flash points, and oxidation stability. Most of the derivatives are either in ISO VG 22 or 32 viscosity grade with good viscosity index. It was observed that increase in acyl chain length and branching in the end-chain ester improved the pour point of the diacyl derivatives. All of the hexanoylated esters exhibited better oxidation stability compared to other acylated products, and their pour points are comparable to those of synthetic esters such as TMP trioleates. In general, isoalcohol esters with longer acyl chains showed promise as potential candidates for hydraulic fluids and metal-working fluids in ISO VG 22 and 32 viscosity range.