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Số người truy cập: 106,849,121
A Nitrogen-Doped Carbon Coated Silicon Carbide as a Robust and Highly Efficient Metal-Free Catalyst for Sour Gases Desulfurization in the Presence of Aromatics as Contaminants
Tác giả hoặc Nhóm tác giả:
Cuong Duong-Viet, Jean-Mario Nhut, Tri Truong-Huu, Giulia Tuci, Dinh Lam Nguyen, Yuefeng Liu, Charlotte Pham, Giuliano Giambastiani and Cuong Pham-Huu
Nơi đăng:
Catalysis Science & Technology;
S
ố:
doi.org/10.1039/D0CY00945H;
Từ->đến trang
: xxx;
Năm:
2020
Lĩnh vực:
Khoa học công nghệ;
Loại:
Bài báo khoa học;
Thể loại:
Quốc tế
TÓM TẮT
As far as environmental chemistry is concerned, N-doped nanocarbons have been employed as efficient, selective and robust metal-free systems for the selective oxidation of H
2
S to elemental sulfur in tail-gas treatment units. Modified Claus units that includes tail-gas treatments can reach up to 99.9% conversion of H
2
S into elemental sulfur; a technology that well-matches with the more and more challenging environmental concerns. Contaminants in the feed stream include hydrocarbons whose incomplete upstream removal may pose several problems to the catalytic units of a modified Claus reactor. Indeed, when hydrocarbons meet catalysts, they may undergo degradation processes that typically cause the catalyst poisoning and make necessary its frequent regeneration if not its complete substitution. This contribution describes a straightforwardly prepared mesoporous N-doped carbon coating for SiC extrudates, the excellent desulfurization performance of the corresponding composite (N-C/SiC) along with its remarkably high resistance towards deactivation/fouling in the presence of relatively high concentrations of toluene [1000 ppm ≦ [tol] ≦ 20000 ppm] as aromatic contaminant. The study has unveiled the existence of a positive “solvent effect” played by toluene on the process selectivity when N-C/SiC is used as catalyst while confirming at the same time the remarkably high H
2
S conversion rates and resistance to deactivation of the metal-free system under harsh reaction conditions.
ABSTRACT
As far as environmental chemistry is concerned, N-doped nanocarbons have been employed as efficient, selective and robust metal-free systems for the selective oxidation of H
2
S to elemental sulfur in tail-gas treatment units. Modified Claus units that includes tail-gas treatments can reach up to 99.9% conversion of H
2
S into elemental sulfur; a technology that well-matches with the more and more challenging environmental concerns. Contaminants in the feed stream include hydrocarbons whose incomplete upstream removal may pose several problems to the catalytic units of a modified Claus reactor. Indeed, when hydrocarbons meet catalysts, they may undergo degradation processes that typically cause the catalyst poisoning and make necessary its frequent regeneration if not its complete substitution. This contribution describes a straightforwardly prepared mesoporous N-doped carbon coating for SiC extrudates, the excellent desulfurization performance of the corresponding composite (N-C/SiC) along with its remarkably high resistance towards deactivation/fouling in the presence of relatively high concentrations of toluene [1000 ppm ≦ [tol] ≦ 20000 ppm] as aromatic contaminant. The study has unveiled the existence of a positive “solvent effect” played by toluene on the process selectivity when N-C/SiC is used as catalyst while confirming at the same time the remarkably high H
2
S conversion rates and resistance to deactivation of the metal-free system under harsh reaction conditions.
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