Chemistry of Protein Toxins in Snake Venoms

Abstract

Claus process is used in oil and gas industry to recover sulfur from H2S rich gas streams. The aromatic contaminants in its feed form soot that clog catalytic beds and deactivate them. Another common prob- lem in this process is flame extinction in the furnace due to low H 2 S concentration. Therefore, fuel gas (mainly, methane) is added to Claus feed to sustain combustion. However, given that hydrocarbons can form polycyclic aromatic hydrocarbons (PAHs) and soot at high-temperatures in the furnace, fuel gas ad- dition may aggravate the problem of catalyst deactivation. This makes it important to understand the role of fuel gas in forming PAHs and soot in the furnace. In this work, a detailed reaction mechanism consisting of 261 species and 1726 reactions is developed for Claus process including reactions for the interaction of hydrocarbons with S-containing species, and is validated using experimental data from flames and flow reactors. The extent of the conversion of hydrocarbons present in the feed gas to PAHs is reported by simulating the thermal section of Claus process. The variation in PAH profiles with varying fuel gas flow rate is also computed and discussed. The pathways for the formation and destruction of aromatic hydrocarbons are presented.