1. Cu-Zn oxides nanoparticles supported on SBA-15 zeolite as a novel adsorbent for simultaneous removal of H2S and Hg0 in natural gas.
- Author
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Zhang, Huawei, Wang, Juan, Liu, Ting, Zhang, Mingzhu, Hao, Lifeng, Phoutthavong, Thipphasone, and Liang, Peng
- Subjects
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NATURAL gas , *METALLIC oxides , *NANOPARTICLE size , *METALWORK , *ADSORPTION capacity , *ZEOLITES , *MERCURY , *OXIDES - Abstract
[Display omitted] • A novel sorbent was prepared for simultaneous removal of H 2 S and Hg0 in natural gas. • H 2 S and Hg0 capacities of 1Cu1Zn/SBA-15 were 296.78 mg·g−1 and 12.75 mg·g−1 at 10% breakthrough. • The 1Cu1Zn/SBA-15 sorbent exhibited excellent the regeneration performance over 5 cycles. • the S n 2− formed by chemisorption of H 2 S are the active sites for Hg0 capture. Inspired by the fact that H 2 S can easily decompose on some metal oxides to form sulfur species and the resulting products are usually used as Hg0 removal active sites, a novel Cu-Zn mixed oxide supported SBA-15 zeolite was controllably synthesized for simultaneous removal of Hg0 and H 2 S. The Cu-Zn nanoparticles with a particle size range of 4.4–5.0 nm were successfully confined and uniformly dispersed in the two-dimensional mesopores of SBA-15. The obtained 1Cu1Zn/SBA-15 adsorbent presented an outstanding H 2 S and Hg0 removal efficiencies at 30 °C and 30,000 h−1, and the H 2 S and Hg0 capture capacities reached to 296.78 mg·g−1 and 12.75 mg·g−1 at a 10% breakthrough. In addition, the spent adsorbent could be regenerated in a 5% O 2 and 95% N 2 atmosphere at 600 °C without obvious degradation of adsorption capacities over five cycles. We considered that the doping effects of Cu-Zn oxides were beneficial for its excellent H 2 S and Hg0 removal performance at low temperatures, and the nano-confinement effect of SBA-15 was conducive to prevent the oxides nanoparticles from agglomeration in the regeneration process, thus achieving the outstanding regeneration performance. Furthermore, the polysulfide polymer formed by chemisorption of H 2 S on the Cu-Zn oxides surface was confirmed to be the Hg0 active sites, which could react with gaseous mercury to form HgS. This work provided an effective way for simultaneous removal of H 2 S and Hg0 in natural gas by confining nano-sized active metal oxides into the mesopores of zeolites. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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