The paper is focused on the epoxidation of methyl esters prepared from oil crops with various profiles of higher fatty acids, especially unsaturated, which are mainly contained in the non-edible linseed and Camelina sativa oil (second generation). The novelty consists in the separation and identification of all products with oxirane ring formed through a reaction and in the determination of time course. Through the epoxidation, many intermediates and final products were formed, i.e., epoxides with different number and/or different position of oxirane rings in carbon chain. For the determination, three main methods (infrared spectroscopy, high-pressure liquid chromatography and gas chromatography with mass spectrometry) were applied. Only gas chromatography enables the separation of individual epoxides, which were identified on the base of the mass spectra, molecule ion and time course of products. The determination of intermediates enables: (i) control of the epoxidation process, (ii) determination of the mixture of epoxides in detail and so the calculation of selectivity of each product. Therefore, the epoxidation will be more environmentally friendly especially for advanced applications of non-edible oil crops containing high amounts of unsaturated fatty acids.

• Keywords
• epoxidation, esters, gas chromatography, infrared spectroscopy, liquid chromatography, vegetable oils,
• MeSH
• Epoxy Compounds chemistry   MeSH
• Esters * analysis   MeSH
• Fatty Acids chemistry   MeSH
• Fatty Acids, Unsaturated * chemistry   MeSH
• Plant Oils chemistry   MeSH
• Gas Chromatography-Mass Spectrometry methods   MeSH
• Publication type
• Journal Article MeSH
• Names of Substances
• Epoxy Compounds MeSH
• Esters * MeSH
• Fatty Acids MeSH
• Fatty Acids, Unsaturated * MeSH
• Plant Oils MeSH