Journal
FUEL PROCESSING TECHNOLOGY
Volume 227, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.fuproc.2021.107105
Keywords
Mechanochemical method; FeS/S; High sulfur petroleum coke; Mercury removal; Coal-fired flue gas
Funding
- National Natural Science Foundation of China [52006245]
- Science and Technology Innovation Program of Hunan Province [2021RC4006]
- Environmental Protection Research Project of Hunan Provincial Department of Ecology and Environment
- Natural Science Founda-tion of Hunan Province [2021JJ40775]
- Innovation-Driven Project of Central South University [2020CX008]
- Postgraduate Research and Innovation Project of Central South University [2021zzts0154]
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In this study, mechanochemical S/FeS modified high sulfur petroleum coke was prepared and evaluated for its mercury removal performance in simulated flue gas. The results showed that increasing the amount of S or FeS improved the mercury removal efficiency, with an optimal sulfur addition ratio of 4.5 for the highest efficiency of 98.6%. The modification process also affected the pore structure of the raw material and led to different sulfur forms on the surface.
The mechanochemical S/FeS modified high sulfur petroleum coke (HSPC) were prepared in this work. The mercury removal performance of the adsorbents was evaluated in a simulated flue gas fixed bed experimental device. The Brunauer-Emmett-Teller (BET), Fourier transform infrared spectrometer (FTIR), X-ray diffractometer (XRD), X-ray photoelectron spectrometer (XPS), Hg temperature-programmed desorption (Hg-TPD) and ther-mogravimetric (TG) were used to obtain the physical and chemical properties of some typical samples. It shows that the mercury removal efficiency (MRE) of mechanochemical S/FeS modified HSPC (MC-S/FeS-PC) increases with increasing the S or FeS addition amount under the same mechanical conditions (600/300 rpm, 60 min), where S is superior to FeS. The mass ratio of carbon to sulfur (RCS) of 4.5 for the MC-S-PC is the optimal sulfur addition amount with the MRE of 98.6%. Mechanochemical S/FeS modification is conducive to the development pore structure of raw HSPC with certain effects. S is the main sulfur form on the surface of MC-S-PC, while thiophene, FeS, and Fe-2(SO4)(3) are the main sulfur forms of MC-FeS-PC. The mercury compound on used ad-sorbents is mainly HgS (black). Moreover, another immature mechanism hypothesis about the mercury removal by MC-S-PC is proposed.
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