High Temperature Hydrogen Sulfide Removal with Stannic Oxide PDF Download
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Languages : en
Pages : 16
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This contract focuses on the development of sorbents and processes for removal of H2S from hot coal gas with the product of sorbent regeneration being elemental sulfur. TDA Research's process uses a regenerable tin(IV) oxide-based (SnO2) sorbent as the first sorbent and zinc ferrite (or zinc titanate) as a second sorbent.
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Category :
Languages : en
Pages : 16
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Book Description
This contract focuses on the development of sorbents and processes for removal of H2S from hot coal gas with the product of sorbent regeneration being elemental sulfur. TDA Research's process uses a regenerable tin(IV) oxide-based (SnO2) sorbent as the first sorbent and zinc ferrite (or zinc titanate) as a second sorbent.
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Languages : en
Pages : 15
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The system is based on the absorption of hydrogen sulfide (H2S) by stannic (tin) oxide. Two sorbents are required, the first sorbent is tin oxide and the second sorbent is a zinc oxide based material (i.e., zinc ferrite or zinc titanate) which is regenerated by air producing SO2. TDA's process carries out a modified Claus reaction to reduce the SO2 from the second sorbent generation to elemental sulfur. In this case the sulfided stannic oxide forms stannous sulfide (SnS) which reduces the SO2. The absorption by SnO2 could remove over 90% of the H2S from typical coal gas streams, but we use zinc ferrite (or zinc titanate), (a) to reduce H2S to less than 20 ppM and (b) as a source of SO2 in regeneration. Due to stoichiometry of regeneration we want to remove half of the H2S by SnO2 and the remainder by the second sorbent. The reactions with stannic oxide minimize the heat released during H2S removal and regeneration. The absorption by SnO2 is slightly endothermic and cools the gas stream by less that 5°F (2.8°C) during absorption. Regeneration with SO2 is exothermic but releases only 11% of the heat that is liberated in regenerating the ZnO. For a nominal 6.5:1 steam to air the regeneration of ZnO increases the temperature by (asymptotically equal to)400°F. The regeneration of SnO2 increases the temperature by less than 50°F (28°C) in the same gas flow.
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Languages : en
Pages : 9
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The objective is to develop and test a regenerable stannic oxide-based sorbent to remove H[sub 2]S from hot coal gases while producing sulfur as the only product. The detailed technical objectives in support of this are: (1) Develop mechanically strong and chemically inert support materials which will retain their properties through multiple absorption regeneration cycles. (2) Develop mathematical models to predict the performance of large-scale systems from benchscale results. (3) Test the durability of the best sorbent/support combinations. (4) Conduct a bench-scale proof of concept test with the best stannic-oxide sorbent. Several approaches are being used to develop long-life sorbents. The investigators have tested sorbents produced by agglomeration, pressing, and extrusion. To date over 50 formulations have been tested, with several showing promise. Table II presents the results on five of these formulations; all of these formulations had surface areas in excess of 2 m[sup 2]/gm. All of the formulations meet the goals for porosity, tin content, and surface area. The crush strength for a 1/8inches dia. by 1/8inches long sorbent is significantly affected by the method of preparing the sorbent.
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Languages : en
Pages :
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A system for high temperature desulfurization of coal-derived gases using regenerable sorbents. One sorbent is stannic oxide (tin oxide, SnO.sub. 2), the other sorbent is a metal oxide or mixed metal oxide such as zinc ferrite (ZnFe.sub. 2 O.sub. 4). Certain otherwise undesirable by-products, including hydrogen sulfide (H.sub. 2 S) and sulfur dioxide (SO.sub. 2) are reused by the system, and elemental sulfur is produced in the regeneration reaction. A system for refabricating the sorbent pellets is also described.
Author: Glenn E. Johnson
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ISBN:
Category : Hydrogen sulfide
Languages : en
Pages : 36
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Author: Mottlene Wang
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Category :
Languages : en
Pages : 318
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Author: William T. Abel
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Category : Gases
Languages : en
Pages : 14
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Author:
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Category : Power resources
Languages : en
Pages : 782
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Author: Kenneth Alan White
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ISBN:
Category : Hydrogen sulfide
Languages : en
Pages : 264
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Author: H. W. Wainwright
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ISBN:
Category : Synthesis gas
Languages : en
Pages : 40
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