Control design for Gas Turbine Cycle with CO2 Capture Capabilities
The semi-closed oxy-fuel gas turbine cycle has been suggested in (Ulizar and Pilidis, 1997) as an alternative for power production with CO2 capture capabilities. This article is concerned with two critical design decisions for a similar process. Optimizations are used on a simulation model to evalua...
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Norwegian Society of Automatic Control
2006-01-01
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| Series: | Modeling, Identification and Control |
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| Online Access: | http://www.mic-journal.no/PDF/2006/MIC-2006-1-4.pdf |
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doaj-fc49ccd0b8b842908598735afe3f520e2020-11-25T00:47:55ZengNorwegian Society of Automatic ControlModeling, Identification and Control0332-73531890-13282006-01-01271576610.4173/mic.2006.1.4Control design for Gas Turbine Cycle with CO2 Capture CapabilitiesDagfinn SnarheimLars ImslandBjarne A FossRagnhild UlfsnesOlav BollandThe semi-closed oxy-fuel gas turbine cycle has been suggested in (Ulizar and Pilidis, 1997) as an alternative for power production with CO2 capture capabilities. This article is concerned with two critical design decisions for a similar process. Optimizations are used on a simulation model to evaluate part load performance for four different control structures. Finally a model predictive controller is implemented for each of the structures, and closed loop simulations are used to assess the different control structures. http://www.mic-journal.no/PDF/2006/MIC-2006-1-4.pdfControl structureintegrated process designpower production |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Dagfinn Snarheim Lars Imsland Bjarne A Foss Ragnhild Ulfsnes Olav Bolland |
| spellingShingle |
Dagfinn Snarheim Lars Imsland Bjarne A Foss Ragnhild Ulfsnes Olav Bolland Control design for Gas Turbine Cycle with CO2 Capture Capabilities Modeling, Identification and Control Control structure integrated process design power production |
| author_facet |
Dagfinn Snarheim Lars Imsland Bjarne A Foss Ragnhild Ulfsnes Olav Bolland |
| author_sort |
Dagfinn Snarheim |
| title |
Control design for Gas Turbine Cycle with CO2 Capture Capabilities |
| title_short |
Control design for Gas Turbine Cycle with CO2 Capture Capabilities |
| title_full |
Control design for Gas Turbine Cycle with CO2 Capture Capabilities |
| title_fullStr |
Control design for Gas Turbine Cycle with CO2 Capture Capabilities |
| title_full_unstemmed |
Control design for Gas Turbine Cycle with CO2 Capture Capabilities |
| title_sort |
control design for gas turbine cycle with co2 capture capabilities |
| publisher |
Norwegian Society of Automatic Control |
| series |
Modeling, Identification and Control |
| issn |
0332-7353 1890-1328 |
| publishDate |
2006-01-01 |
| description |
The semi-closed oxy-fuel gas turbine cycle has been suggested in (Ulizar and Pilidis, 1997) as an alternative for power production with CO2 capture capabilities. This article is concerned with two critical design decisions for a similar process. Optimizations are used on a simulation model to evaluate part load performance for four different control structures. Finally a model predictive controller is implemented for each of the structures, and closed loop simulations are used to assess the different control structures. |
| topic |
Control structure integrated process design power production |
| url |
http://www.mic-journal.no/PDF/2006/MIC-2006-1-4.pdf |
| work_keys_str_mv |
AT dagfinnsnarheim controldesignforgasturbinecyclewithco2capturecapabilities AT larsimsland controldesignforgasturbinecyclewithco2capturecapabilities AT bjarneafoss controldesignforgasturbinecyclewithco2capturecapabilities AT ragnhildulfsnes controldesignforgasturbinecyclewithco2capturecapabilities AT olavbolland controldesignforgasturbinecyclewithco2capturecapabilities |
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