Nickel Sulfides Decorated SiC Foam for the Low Temperature Conversion of H₂S into Elemental Sulfur

Cuong Duong-Viet; Lam Nguyen-Dinh; Yuefeng Liu; Giulia Tuci; Giuliano Giambastiani; Cuong Pham-Huu

doi:10.3390/molecules23071528

Nickel Sulfides Decorated SiC Foam for the Low Temperature Conversion of H₂S into Elemental Sulfur

Molecules. 2018 Jun 25;23(7):1528. doi: 10.3390/molecules23071528.

Authors

Cuong Duong-Viet^{1

2}, Lam Nguyen-Dinh³, Yuefeng Liu^{4

5}, Giulia Tuci⁶, Giuliano Giambastiani^{7

8

9}, Cuong Pham-Huu¹⁰

Affiliations

¹ Institute of Chemistry and Processes for Energy, Environment and Health (ICPEES), UMR 7515 CNRS-University of Strasbourg (UdS), 25, rue Becquerel, 67087 Strasbourg CEDEX 02, France. duongvietcuong@humg.edu.vn.
² Ha-Noi University of Mining and Geology, 18 Pho Vien, Duc Thang, Bac Tu Liem, Ha-Noi, Vietnam. duongvietcuong@humg.edu.vn.
³ The University of Da-Nang, University of Science and Technology, 54, Nguyen Luong Bang, Da-Nang, Vietnam. ndlam@dut.udn.vn.
⁴ Institute of Chemistry and Processes for Energy, Environment and Health (ICPEES), UMR 7515 CNRS-University of Strasbourg (UdS), 25, rue Becquerel, 67087 Strasbourg CEDEX 02, France. yuefeng.liu@dicp.ac.cn.
⁵ Dalian National Laboratory for Clean Energy (DNL), Dalian Institute of Chemical Physics, Chinese Academy of Science, 457 Zhongshan Road, Dalian 116023, China. yuefeng.liu@dicp.ac.cn.
⁶ Institute of Chemistry of OrganoMetallic Compounds, ICCOM-CNR Via Madonna del Piano, Sesto F.no, 10 - 50019 Florence, Italy. giulia.tuci@iccom.cnr.it.
⁷ Institute of Chemistry and Processes for Energy, Environment and Health (ICPEES), UMR 7515 CNRS-University of Strasbourg (UdS), 25, rue Becquerel, 67087 Strasbourg CEDEX 02, France. giuliano.giambastiani@iccom.cnr.it.
⁸ Institute of Chemistry of OrganoMetallic Compounds, ICCOM-CNR Via Madonna del Piano, Sesto F.no, 10 - 50019 Florence, Italy. giuliano.giambastiani@iccom.cnr.it.
⁹ Kazan Federal University, 420008 Kazan, Russia. giuliano.giambastiani@iccom.cnr.it.
¹⁰ Institute of Chemistry and Processes for Energy, Environment and Health (ICPEES), UMR 7515 CNRS-University of Strasbourg (UdS), 25, rue Becquerel, 67087 Strasbourg CEDEX 02, France. cuong.pham-huu@unistra.fr.

Abstract

The selective oxidation of H₂S to elemental sulfur was carried out on a NiS₂/SiC^foam catalyst under reaction temperatures between 40 and 80 °C using highly H₂S enriched effluents (from 0.5 to 1 vol.%). The amphiphilic properties of SiC foam provide an ideal support for the anchoring and growth of a NiS₂ active phase. The NiS₂/SiC composite was employed for the desulfurization of highly H₂S-rich effluents under discontinuous mode with almost complete H₂S conversion (nearly 100% for 0.5 and 1 vol.% of H₂S) and sulfur selectivity (from 99.6 to 96.0% at 40 and 80 °C, respectively), together with an unprecedented sulfur-storage capacity. Solid sulfur was produced in large aggregates at the outer catalyst surface and relatively high H₂S conversion was maintained until sulfur deposits reached 140 wt.% of the starting catalyst weight. Notably, the spent NiS₂/SiC^foam catalyst fully recovered its pristine performance (H₂S conversion, selectivity and sulfur-storage capacity) upon regeneration at 320 °C under He, and thus, it is destined to become a benchmark desulfurization system for operating in discontinuous mode.

Keywords: H2S oxidation; catalysis; low-temperature; nickel sulfide; silicon carbide.

MeSH terms

Carbon Compounds, Inorganic / chemistry*
Catalysis
Cold Temperature
Hydrogen Sulfide / chemistry*
Nickel / chemistry*
Oxidation-Reduction
Silicon Compounds / chemistry*
Sulfur / chemistry

Substances

Carbon Compounds, Inorganic
Silicon Compounds
Sulfur
Nickel
nickel sulfide
silicon carbide
Hydrogen Sulfide