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Investigation of the effect of presulphidation on coke deposition on 25Cr-35Ni alloy during ethane steam cracking |
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| Authors: | Somayeh Mohebi Ali Darvishi Shahin Hosseini Akbar Bolhasani Soroush Karamian Ourmazd Dehghani Faraz Khanbolouk |
| Affiliation: | 1. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran;2. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran
Department of Chemical Engineering, Shiraz University, Shiraz, Iran Contribution: ?Investigation;3. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran Contribution: Writing - review & editing;4. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran Department of Chemical Engineering, Shiraz University, Shiraz, Iran Contribution: Conceptualization;5. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran Department of Chemical Engineering, Shiraz University, Shiraz, Iran Contribution: Resources;6. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran Department of Chemical Engineering, Shiraz University, Shiraz, Iran Contribution: Funding acquisition;7. Research and Development Center, Jam Petrochemical Company, Pars Special Economic Energy Zone, Asaluyeh, Iran Chemistry and Chemical Engineering Research Center of Iran (CCERCI), Tehran, Iran Contribution: ?Investigation |
| Abstract: | The process of hydrocarbons cracking is carried out in the presence of heat-resistant alloys Fe-Ni-Cr, which HP40 alloy (25Cr-35Ni) has the most applications among olefin plants. Since these alloys naturally tend to form coke, the industry has always tried to reduce the coke formation by reducing the catalytic properties of the coils. In this research, the effect of dimethyl disulphide (DMDS) concentration (200–900 ppm) on the HP40 alloy of industrial coils at the presulphidation stage is evaluated. In the presulphidation stage, the alloy surface is in contact with sulphur in the absence of hydrocarbons, and this affects the amount of coke formation in the cracking process. Also, the surface composition and morphology of coke are identified using EDX and SEM analysis. These results showed that at the 500 ppm concentration of DMDS, coke deposition is minimized. Additionally, our findings indicated that coke morphology has not changed under different presulphidation conditions, and coke is still a filament type, but the size of the filaments has changed. Moreover, the study of HP40 composition in both preoxidized and presulphide stages shows that presulphidation reduces the amount of Fe and Ni in the coke layer significantly. |
| Keywords: | coke deposition coke inhibition dimethyl disulphide presulphidation steam cracking |