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Technology for removing carbon dioxide from power plant flue gas by the physical adsorption method
Research into technology for removal of CO sub(2) considered to be the major cause of global warming, was applied to electric power plant flue gas. Our method was to use zeolite as adsorbent for physical adsorption, progressing from the previously used PSA (Pressure Swing Adsorption) method to the m...
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| Published in: | Energy conversion and management 1995-08, Vol.37 (6-8), p.929-933 |
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| Format: | Article |
| Language: | English |
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| container_title | Energy conversion and management |
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| description | Research into technology for removal of CO sub(2) considered to be the major cause of global warming, was applied to electric power plant flue gas. Our method was to use zeolite as adsorbent for physical adsorption, progressing from the previously used PSA (Pressure Swing Adsorption) method to the more advanced PTSA (Pressure and Temperature Swing Adsorption) method. We have been conducting basic research since the 1980s, and in 1991 built a 1000m super(3)N/h scale pilot plant, where we are continuing research through trial operation. Trial operation of the pilot plant has been mainly for acquisition of scale up data, as well as improvement in the decrease in the power consumption of PTSA units. As a result, we have seen a better than 20% improvement in that area. In addition, the pilot plant completed 2000 hours of continuous operation without incident between October and December, 1994. The total hours of operation of the plant have topped 4000 hours, but we have seen no decrease in the effectiveness of the CO sub(2) adsorbent. The SOx in the flue gas was trapped in the lower part of desiccant in PSA-H sub(2)O before the process. Some of desiccant reacts to that, but we have prevented any ill effects on the process that might be caused by main units. At this point we would like to report on the results of our research, as well as outline our plants for the future. |
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Our method was to use zeolite as adsorbent for physical adsorption, progressing from the previously used PSA (Pressure Swing Adsorption) method to the more advanced PTSA (Pressure and Temperature Swing Adsorption) method. We have been conducting basic research since the 1980s, and in 1991 built a 1000m super(3)N/h scale pilot plant, where we are continuing research through trial operation. Trial operation of the pilot plant has been mainly for acquisition of scale up data, as well as improvement in the decrease in the power consumption of PTSA units. As a result, we have seen a better than 20% improvement in that area. In addition, the pilot plant completed 2000 hours of continuous operation without incident between October and December, 1994. The total hours of operation of the plant have topped 4000 hours, but we have seen no decrease in the effectiveness of the CO sub(2) adsorbent. The SOx in the flue gas was trapped in the lower part of desiccant in PSA-H sub(2)O before the process. Some of desiccant reacts to that, but we have prevented any ill effects on the process that might be caused by main units. 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The SOx in the flue gas was trapped in the lower part of desiccant in PSA-H sub(2)O before the process. Some of desiccant reacts to that, but we have prevented any ill effects on the process that might be caused by main units. 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Our method was to use zeolite as adsorbent for physical adsorption, progressing from the previously used PSA (Pressure Swing Adsorption) method to the more advanced PTSA (Pressure and Temperature Swing Adsorption) method. We have been conducting basic research since the 1980s, and in 1991 built a 1000m super(3)N/h scale pilot plant, where we are continuing research through trial operation. Trial operation of the pilot plant has been mainly for acquisition of scale up data, as well as improvement in the decrease in the power consumption of PTSA units. As a result, we have seen a better than 20% improvement in that area. In addition, the pilot plant completed 2000 hours of continuous operation without incident between October and December, 1994. The total hours of operation of the plant have topped 4000 hours, but we have seen no decrease in the effectiveness of the CO sub(2) adsorbent. The SOx in the flue gas was trapped in the lower part of desiccant in PSA-H sub(2)O before the process. Some of desiccant reacts to that, but we have prevented any ill effects on the process that might be caused by main units. At this point we would like to report on the results of our research, as well as outline our plants for the future.</abstract></addata></record> |
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| identifier | ISSN: 0196-8904 |
| ispartof | Energy conversion and management, 1995-08, Vol.37 (6-8), p.929-933 |
| issn | 0196-8904 |
| language | eng |
| recordid | cdi_proquest_miscellaneous_15843905 |
| source | ScienceDirect Freedom Collection |
| title | Technology for removing carbon dioxide from power plant flue gas by the physical adsorption method |
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