Conference proceeding
Study of plasma dissociation mechanism of hydrogen sulfide
2009 IEEE International Conference on Plasma Science - Abstracts, pp 1-1
Jun 2009
Abstract
Summary form only given: Hydrogen sulfide plasma dissociation is a promising method for H 2 S utilization. The conventional method based on multi-stage Claus Process is currently considered the industry standard. The Claus Process is based on partial oxidation of H 2 S, which results in the production of sulfur and water. Plasma dissociation of H 2 S follows direct dissociation path producing sulfur and hydrogen. It was estimated that if plasma dissociation of H 2 S can be industrially realized with energy cost lower than 1 eV per H 2 molecule it can save the refining industry about up to 70times10 12 Btu/yr. Earlier thermodynamic equilibrium calculations show that the energy cost of thermal dissociation of molecule of H 2 S cannot be less than 2.0 eV. Moreover, no chemical kinetics model exists that shows a significant improvement over thermodynamic equilibrium calculations. Nonetheless, results obtained from swirl flow reactors with microwave plasma discharge show that the effective cost of H 2 S dissociation can be as low as 0.7 eV per molecule. The only explanation given for this low energy cost was the centrifugal effect of separation of solid sulfur with internal energy recuperation, which is more a hypothesis than a theory supported by experiment or detailed numerical modeling. This research is focused on the explanation of the above phenomena through the chemical kinetics modeling of the dissociation process as well as numerical simulation of heat and mass transfer in the plasma reactors used for the dissociation. The revision of kinetic mechanism is necessary, because many commonly known mechanisms are incomplete. Thus, the goal is not only to create a model predicting the experimentally achieved dissociation cost of 0.7 eV, but also experimentally confirm theoretical model conclusions.
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Details
- Title
- Study of plasma dissociation mechanism of hydrogen sulfide
- Creators
- K Gutsol - Drexel UniversityA Rabinovich - Drexel UniversityA Starikovskiy - Drexel UniversityA Fridman - Drexel UniversityA Gutsol - Chevron Energy Technology Company, Richmond, CA 94801, USAR.W Potter - Chevron Energy Technology Company, Richmond, CA 94801, USA
- Publication Details
- 2009 IEEE International Conference on Plasma Science - Abstracts, pp 1-1
- Publisher
- IEEE
- Resource Type
- Conference proceeding
- Language
- English
- Academic Unit
- C. and J. Nyheim Plasma Institute; Mechanical Engineering and Mechanics
- Scopus ID
- 2-s2.0-70350707396
- Other Identifier
- 991019173433004721