Antioxidant potential of sulfenimides in waste walnut oil biodiesel: kinetic stability, phosphomolybdenum activity, and reducing power capacity
Nalan TÜRKÖZ KARAKULLUKÇU, Hasan YAKAN, Volkan Murat YILMAZ, Halit MUĞLU, Semiha YENİGÜN, Halil KÜTÜK

TL;DR
This study explores how sulfenimides can act as antioxidants in biodiesel blends, improving their stability and oxidation resistance.
Contribution
The paper introduces sulfenimides as novel antioxidant additives for biodiesel and evaluates their performance using multiple analytical methods.
Findings
Sulfenimides improved the oxidative stability of biodiesel blends compared to ascorbic acid.
The addition of sulfenimides was confirmed via FT-IR spectra showing characteristic absorption bands.
Thermogravimetric analysis revealed varying activation energies for the sulfenimide compounds.
Abstract
This study investigated the influence of synthetic sulfenimides on biodiesel–diesel fuel blends. Three previously synthesized sulfenimide derivatives were structurally characterized using spectroscopic techniques. We evaluated their antioxidant properties through phosphomolybdenum activity and reducing power capacity assays. The tested fuel samples were designated as D100, B10D90, B10D90_AA (ascorbic acid), B10D90_3, B10D90_2, and B10D90_1. The effect of adding 2000 ppm of the additive was measured using an Oxifast instrument following the ASTM D7545 standard, and the results were compared to those of the chemical antioxidant ascorbic acid. Inhibition time values were derived from the oxidation stability results. The starting temperatures for crystallization (Tc) of the mixtures were found using differential scanning calorimetry (DSC), and the measured temperatures were −7.24, −7.64,…
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Taxonomy
TopicsBiodiesel Production and Applications · Lubricants and Their Additives · Catalysis and Hydrodesulfurization Studies
