Author: James L. Aderhold
Publisher:
ISBN:
Category : Combustion gases
Languages : en
Pages : 1156
Book Description
Experimental Reactor Studies of the Catalytic Reduction of Sulfur Dioxide by Carbon Monoxide
Author: James L. Aderhold
Publisher:
ISBN:
Category : Combustion gases
Languages : en
Pages : 1156
Book Description
Publisher:
ISBN:
Category : Combustion gases
Languages : en
Pages : 1156
Book Description
Process Development Studies for Catalytic Reduction of Sulfur Dioxide by Carbon Monoxide
Author: Charles W. Quinlan
Publisher:
ISBN:
Category : Carbon monoxide
Languages : en
Pages : 1030
Book Description
Publisher:
ISBN:
Category : Carbon monoxide
Languages : en
Pages : 1030
Book Description
Process Development Studies for the Catalytic Reduction of Sulfur Dioxide by Carbon Monoxide
Author: Stephen K. W. Lee
Publisher:
ISBN:
Category : Air
Languages : en
Pages : 344
Book Description
Publisher:
ISBN:
Category : Air
Languages : en
Pages : 344
Book Description
Catalytic Reduction of Sulfur Dioxide by Carbon Monoxide
Catalytic Reduction of Sulfur Dioxide with Carbon Monoxide
Author: Joseph Gerson Isaac Bazes
Publisher:
ISBN:
Category : Reduction (Chemistry)
Languages : en
Pages : 156
Book Description
Publisher:
ISBN:
Category : Reduction (Chemistry)
Languages : en
Pages : 156
Book Description
Selective Catalytic Reduction of Sulfur Dioxide to Elemental Sulfur
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 13
Book Description
Elemental sulfur recovery from SO[sub 2]-containing gas streams is highly attractive as it produces a saleable. Product and no waste to dispose of. However, commercially available schemes are complex and involve multi-stage reactors, such as, most notably in the Resox (reduction of SO[sub 2] with coke) and Claus plants(reaction of SO[sub 2] with H[sub 2]S over catalyst). This project win investigate a cerium oxide catalyst for the single-stage selective reduction SO[sub 2] to elemental sulfur by a reductant, such as carbon monoxide. Cerium oxide has been identified as a superior catalyst for SO[sub 2] reduction by CO to elemental sulfur because of its high activity and high selectivity to sulfur over COS over a wide temperature range(400--650C). Kinetic and parametric studies of SO[sub 2] reduction planned over various CeO[sub 2]-formulations will provide the necessary basis for development of a simplified process, a single-stage elemental sulfur recovery scheme from variable concentration gas streams. A first apparent application is treatment of regenerator off-gases in power plants using regenerative flue gas desulfurization. Such a simple catalytic converter may offer the long-sought Claus-alternative'' for coal-fired power plant applications.
Publisher:
ISBN:
Category :
Languages : en
Pages : 13
Book Description
Elemental sulfur recovery from SO[sub 2]-containing gas streams is highly attractive as it produces a saleable. Product and no waste to dispose of. However, commercially available schemes are complex and involve multi-stage reactors, such as, most notably in the Resox (reduction of SO[sub 2] with coke) and Claus plants(reaction of SO[sub 2] with H[sub 2]S over catalyst). This project win investigate a cerium oxide catalyst for the single-stage selective reduction SO[sub 2] to elemental sulfur by a reductant, such as carbon monoxide. Cerium oxide has been identified as a superior catalyst for SO[sub 2] reduction by CO to elemental sulfur because of its high activity and high selectivity to sulfur over COS over a wide temperature range(400--650C). Kinetic and parametric studies of SO[sub 2] reduction planned over various CeO[sub 2]-formulations will provide the necessary basis for development of a simplified process, a single-stage elemental sulfur recovery scheme from variable concentration gas streams. A first apparent application is treatment of regenerator off-gases in power plants using regenerative flue gas desulfurization. Such a simple catalytic converter may offer the long-sought Claus-alternative'' for coal-fired power plant applications.
Selective Catalytic Reduction of Sulfur Dioxide to Elemental Sulfur. Quarterly Technical Progress Report No. 2, October--December 1992
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 13
Book Description
Elemental sulfur recovery from SO2-containing gas streams is highly attractive as it produces a saleable. Product and no waste to dispose of. However, commercially available schemes are complex and involve multi-stage reactors, such as, most notably in the Resox (reduction of SO2 with coke) and Claus plants(reaction of SO2 with H2S over catalyst). This project win investigate a cerium oxide catalyst for the single-stage selective reduction SO2 to elemental sulfur by a reductant, such as carbon monoxide. Cerium oxide has been identified as a superior catalyst for SO2 reduction by CO to elemental sulfur because of its high activity and high selectivity to sulfur over COS over a wide temperature range(400--650C). Kinetic and parametric studies of SO2 reduction planned over various CeO2-formulations will provide the necessary basis for development of a simplified process, a single-stage elemental sulfur recovery scheme from variable concentration gas streams. A first apparent application is treatment of regenerator off-gases in power plants using regenerative flue gas desulfurization. Such a simple catalytic converter may offer the long-sought ''Claus-alternative'' for coal-fired power plant applications.
Publisher:
ISBN:
Category :
Languages : en
Pages : 13
Book Description
Elemental sulfur recovery from SO2-containing gas streams is highly attractive as it produces a saleable. Product and no waste to dispose of. However, commercially available schemes are complex and involve multi-stage reactors, such as, most notably in the Resox (reduction of SO2 with coke) and Claus plants(reaction of SO2 with H2S over catalyst). This project win investigate a cerium oxide catalyst for the single-stage selective reduction SO2 to elemental sulfur by a reductant, such as carbon monoxide. Cerium oxide has been identified as a superior catalyst for SO2 reduction by CO to elemental sulfur because of its high activity and high selectivity to sulfur over COS over a wide temperature range(400--650C). Kinetic and parametric studies of SO2 reduction planned over various CeO2-formulations will provide the necessary basis for development of a simplified process, a single-stage elemental sulfur recovery scheme from variable concentration gas streams. A first apparent application is treatment of regenerator off-gases in power plants using regenerative flue gas desulfurization. Such a simple catalytic converter may offer the long-sought ''Claus-alternative'' for coal-fired power plant applications.
Selective Catalytic Reduction of Sulfur Dioxide to Elemental Sulfur. Quarterly Technical Progress Report No. 10, October 1994--December 1994
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 22
Book Description
Elemental sulfur recovery from SO2-containing gas stream is highly attractive as it produces a salable product and no waste. However, commercially available schemes are complex and involve multi-stage reactors, such as, most notably in the Resox (reduction of SO2 with coke) and Claus plant (reaction of SO2 with H2S over catalyst). This project will investigate a cerium oxide catalyst for the single stage selective reduction of SO2 to elemental sulfur by a reductant, such as carbon monoxide. Cerium oxide has been identified in recent work at MIT as a superior catalyst for SO2 reduction by CO to elemental sulfur because its high activity and high selectivity to sulfur over COS over a wide temperature range (400-650°C). The detailed kinetic and parametric studies of SO2 reduction planned in this work over various CeO2-formulations will provide the necessary basis for development of a very simplified process, namely that of a single-stage elemental sulfur recovery scheme from variable concentration gas streams. The potential cost- and energy-efficiency benefits from this approach cannot be overstated. A first apparent application is treatment of a regenerator off-gases in power plants using regenerative flue gas desulfurization. Such a simple catalytic converter may offer the long-sought {open_quotes}Claus-alternative{close_quotes} for coal-fired power plant applications.
Publisher:
ISBN:
Category :
Languages : en
Pages : 22
Book Description
Elemental sulfur recovery from SO2-containing gas stream is highly attractive as it produces a salable product and no waste. However, commercially available schemes are complex and involve multi-stage reactors, such as, most notably in the Resox (reduction of SO2 with coke) and Claus plant (reaction of SO2 with H2S over catalyst). This project will investigate a cerium oxide catalyst for the single stage selective reduction of SO2 to elemental sulfur by a reductant, such as carbon monoxide. Cerium oxide has been identified in recent work at MIT as a superior catalyst for SO2 reduction by CO to elemental sulfur because its high activity and high selectivity to sulfur over COS over a wide temperature range (400-650°C). The detailed kinetic and parametric studies of SO2 reduction planned in this work over various CeO2-formulations will provide the necessary basis for development of a very simplified process, namely that of a single-stage elemental sulfur recovery scheme from variable concentration gas streams. The potential cost- and energy-efficiency benefits from this approach cannot be overstated. A first apparent application is treatment of a regenerator off-gases in power plants using regenerative flue gas desulfurization. Such a simple catalytic converter may offer the long-sought {open_quotes}Claus-alternative{close_quotes} for coal-fired power plant applications.
Catalytic Reduction of Carbon Monoxide with Hydrogen
Author: S. D. Rosenberg
Publisher:
ISBN:
Category : Carbon monoxide
Languages : en
Pages : 80
Book Description
Publisher:
ISBN:
Category : Carbon monoxide
Languages : en
Pages : 80
Book Description