Thermal Cracking of Ethanethiol

Combustion of organosulfur contaminants in petroleum-based fuels and biofuels produces sulfur oxides (SOx). These pollutants are highly regulated by the EPA because they have been linked to poor respiratory health and negative... [ view full abstract ]

Combustion of organosulfur contaminants in petroleum-based fuels and biofuels produces sulfur oxides (SOx). These pollutants are highly regulated by the EPA because they have been linked to poor respiratory health and negative environmental impacts. Therefore much effort has been made to remove sulfur compounds in petroleum-based fuels and biofuels. Currently desulfurization methods used in the fuel industry are costly and inefficient. Research of the thermal decomposition mechanisms of organosulfur species can be implemented via engineering simulations to modify existing refining technologies to design more efficient sulfur removal processes. We have used a resistively-heated SiC tubular reactor to study the thermal decomposition of ethanethiol (CH3CH2SH). The decomposition products are identified by two independent techniques: 118.2 nm VUV photoionization mass spectroscopy and infrared spectroscopy. The thermal cracking products for CH3CH2SH are CH2CH2, SH, and H2S.