Kinetics and mechanism of the reaction between maleic anhydride and fatty acid esters and the structure of the products

The reaction has been studied spectrophotometrically monitoring the absorbance in the wavelength range. The spectra of the reactants, intermediates, and prod-240-400 nm ucts in this system are overlapping; thus special programs [1,2] have been used (and tested) to unravel the kinetics and mechanism

## Abstract The kinetics of tartaric acid oxidation by peroxodisulphate ion has been studied to elucidate the mechanism of oxidation. Uncommon to many peroxodisulphate reactions it shows a variation in order. It is found to progress bimolecularly in the beginning and unimolecularly till completion.

A study was made of the epoxidation of octadecenoic acids with peroxybenzoic acid in benzene. Activation energies, frequency factors, enthalpies of activation, entropies of activation, and free energies of activation were obtained for the following fatty acids: cis-9-octadecenoic acid (oleic), trans

The kinetics of the thermal reaction between CF,OF and C,F, have been investigated between 20 and 75°C. It is a homogeneous chain reaction of moderate length where the main product is a mixture of the two isomers l-C,F,OCF, (68%) and 2-C3F,0CF3 (32%). Equimolecular amounts of CF,OOCF, and CsF,, are

## Abstract The work investigates the influence of temperature on the reaction kinetics and the consequent change in the distribution of homologues during ethoxylation of fatty acid methyl esters. It was found that temperature‐related kinetics of ethoxylation significantly affects the composition o