Modeling and Dynamic Analysis of CO2-Emission Free Power Processes in Modelica using the CombiPlant Library
(2006) Modelica 2006- Abstract
- The need to reduce CO2 emissions from fossil-fuel
based power production creates the need for new
power plant solutions where the CO2 is captured and
stored or reused. Different concepts to capture CO2
fall into the three main categories:
1. Precombustion decarbonization
2. Oxy-fuel combustion
3. Post-combustion removal of carbon.
In the first two types of processes Oxygen Transport
Membrane (OTM) is the key component, as pure
oxygen is usually required to process reactions (e.g.
Integrated Gasification Combined Cycle IGCC, Advanced
Zero Emission Plant AZEP). Post-combustion
removal processes can for example utilize... (More) - The need to reduce CO2 emissions from fossil-fuel
based power production creates the need for new
power plant solutions where the CO2 is captured and
stored or reused. Different concepts to capture CO2
fall into the three main categories:
1. Precombustion decarbonization
2. Oxy-fuel combustion
3. Post-combustion removal of carbon.
In the first two types of processes Oxygen Transport
Membrane (OTM) is the key component, as pure
oxygen is usually required to process reactions (e.g.
Integrated Gasification Combined Cycle IGCC, Advanced
Zero Emission Plant AZEP). Post-combustion
removal processes can for example utilize adsorption/
desorption in certain salt solutions. This paper
will describe two different applications of CO2-
emission-free processes, one using an OTM, the other
a high pressure post combustion removal process, the
Sargas process, which has been modeled in a project
with Siemens Industrial Turbomachinery AB and Alstom
Power Sweden AB. All modeling work was carried
out in the modeling language Modelica, which is
an open standard for equation-based, object-oriented
modeling of physical systems. System models have
been built using the CombiPlant library, a modeling library for combined cycle power plants from Modelon
AB. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/603308
- author
- Selimovic, Faruk LU ; Eborn, Jonas LU and Sundén, Bengt LU
- organization
- publishing date
- 2006
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- keywords
- Power Plant Modeling, CO2-removal, OTM, Oxy-Fuel Combustion
- host publication
- Modelica 2006 Proceedings
- publisher
- Modelica
- conference name
- Modelica 2006
- conference location
- Vienna, Austria
- conference dates
- 2006-09-06
- language
- English
- LU publication?
- yes
- id
- 599c2015-038f-4c9d-ad7c-82b403a12315 (old id 603308)
- date added to LUP
- 2016-04-04 10:38:24
- date last changed
- 2018-11-21 20:59:55
@inproceedings{599c2015-038f-4c9d-ad7c-82b403a12315, abstract = {{The need to reduce CO2 emissions from fossil-fuel<br/><br> based power production creates the need for new<br/><br> power plant solutions where the CO2 is captured and<br/><br> stored or reused. Different concepts to capture CO2<br/><br> fall into the three main categories:<br/><br> 1. Precombustion decarbonization<br/><br> 2. Oxy-fuel combustion<br/><br> 3. Post-combustion removal of carbon.<br/><br> In the first two types of processes Oxygen Transport<br/><br> Membrane (OTM) is the key component, as pure<br/><br> oxygen is usually required to process reactions (e.g.<br/><br> Integrated Gasification Combined Cycle IGCC, Advanced<br/><br> Zero Emission Plant AZEP). Post-combustion<br/><br> removal processes can for example utilize adsorption/<br/><br> desorption in certain salt solutions. This paper<br/><br> will describe two different applications of CO2-<br/><br> emission-free processes, one using an OTM, the other<br/><br> a high pressure post combustion removal process, the<br/><br> Sargas process, which has been modeled in a project<br/><br> with Siemens Industrial Turbomachinery AB and Alstom<br/><br> Power Sweden AB. All modeling work was carried<br/><br> out in the modeling language Modelica, which is<br/><br> an open standard for equation-based, object-oriented<br/><br> modeling of physical systems. System models have<br/><br> been built using the CombiPlant library, a modeling library for combined cycle power plants from Modelon<br/><br> AB.}}, author = {{Selimovic, Faruk and Eborn, Jonas and Sundén, Bengt}}, booktitle = {{Modelica 2006 Proceedings}}, keywords = {{Power Plant Modeling; CO2-removal; OTM; Oxy-Fuel Combustion}}, language = {{eng}}, publisher = {{Modelica}}, title = {{Modeling and Dynamic Analysis of CO2-Emission Free Power Processes in Modelica using the CombiPlant Library}}, url = {{https://lup.lub.lu.se/search/files/5586304/603312.pdf}}, year = {{2006}}, }