PK
b|X J- J-
cqu_9388+SOURCE1+SOURCE1.3UT `f`f
05038naaaa2200529 a 4500
vtls000972835
QCQU
20130624124500.0
130501t2012 qea| |s| |000 0|eng d
vi000972835
201306241245
dawsone
201306181050
dawsone
201306181048
dawsone
201306171708
dawsone
201305011450
andersen
cqu:9388 (ACQUIRE COLLECTION)
Mahamud, Rasel.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Synergetic integration of chemical absorption CO2 capture with a coal power plant
[electronic resource] /
Rasel Mahamud, M. Masud K. Khan, Mohammad Rasul [and] Malcolm Leinster.
Rockhampton, Queensland :
Engineers Australia,
2012.
8 p. ;
Conference theme: “Regional Engineering Excellenceâ€.
Carbon capture and storage (CCS) is considered as a promising option to reduce CO2 emissions from the power generation plant, the prime contributor to global anthropogenic emission. There are many options for capturing CO2, of which, chemical absorption CO2 capture technology is found to be very effective and ready for commercial application in a scale required by the power plant. In chemical absorption, CO2 is separated from flue gas by means of chemical reaction using chemical solvent. In order to facilitate continuous operation, the absorption reaction is reversed to regenerate the solvent to get it back to the absorption process. The major problem of the technology is that it consumes huge amount of energy, particularly the regeneration process of solvent. Research and development is being conducted to reduce the excessive energy consumption and one of the potential strategies is the synergetic integration of CO2 capture with power plant. In this research, process simulation model of chemical absorption CO2 capture process with a power plant in Central Queensland, Australia has been developed. The simulation result of the model is used for energy balance and thereby, identification of process synergies. It shows that significant improvement of energy efficiency can be achieved through utilizing the synergies for whole process integration.
Mahamud, R, Khan, MMK, Mohammad, R & Leinster, M 2012, 'Synergetic Integration of Chemical Absorption CO2 Capture with a Coal Power Plant', paper presented to the Central Region Engineering Conference, Central Queensland University, Rockhampton, Queensland, 10th-11th August, https://www.engineersaustralia.org.au/sites/default/files/shado/Divisions/Queensland%20Division/Events/2012/proceedings_1.pdf
No Research Grant
en-aus
HERDC2012
E1 - Full Conference Paper (Refereed)
HERDC Eligible
ERA Eligible
Carbon sequestration.
850603 Energy Systems Analysis.
ANZSRC (2008) : Socio-economic objective (SEO)
anzsrcseo
850703 Industrial Energy Conservation and Efficiency.
ANZSRC (2008) : Socio-economic objective (SEO)
anzsrcseo
090401 Carbon Capture Engineering (excl. Sequestration).
ANZSRC (2008) : Fields of Research (FOR)
anzsrcfor
090607 Power and Energy Systems Engineering (excl. Renewable Power).
ANZSRC (2008) : Fields of Research (FOR)
anzsrcfor
090407 Process Control and Simulation.
ANZSRC (2008) : Fields of Research (FOR)
anzsrcfor
Energy conservation.
Carbon capture --
Chemical absorption --
Energy efficiency --
Process integration --
Pinch analysis
Conference Paper.
Full Paper (Refereed)
acquire
ACQUIRECollection
HERDCCollection
ERACollection
Khan, Mohammad Masud Kamal.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Rasul, Mohammad.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Leinster, Malcolm.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Central Queensland University.
Institute for Resource Industries and Sustainability (IRIS)
QCQU
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Central Region Engineering Conference
(2012 :
Rockhampton, Qld.)
[electronic resource]
Central Region Engineering Conference 2012 proceedings,10-11 August, 2012, Rockhampton, Queensland.
Rockhampton, Queensland : Engineers Australia, 2012.
p. 33-40
8 pages
Refereed
ACQUIRE [electronic resource] : Central Queensland University Institutional Repository.
Published version.
https://www.engineersaustralia.org.au/sites/default/files/shado/Divisions/Queensland%20Division/Events/2012/proceedings_1.pdf
Full-text options.
http://hdl.cqu.edu.au/10018/931439.
PKy.×J- J- PK
b|X J- J-
cqu_9388+SOURCE1+SOURCE1.4UT `f`f
05038naaaa2200529 a 4500
vtls000972835
QCQU
20130624124500.0
130501t2012 qea| |s| |000 0|eng d
vi000972835
201306241245
dawsone
201306181050
dawsone
201306181048
dawsone
201306171708
dawsone
201305011450
andersen
cqu:9388 (ACQUIRE COLLECTION)
Mahamud, Rasel.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Synergetic integration of chemical absorption CO2 capture with a coal power plant
[electronic resource] /
Rasel Mahamud, M. Masud K. Khan, Mohammad Rasul [and] Malcolm Leinster.
Rockhampton, Queensland :
Engineers Australia,
2012.
8 p. ;
Conference theme: “Regional Engineering Excellenceâ€.
Carbon capture and storage (CCS) is considered as a promising option to reduce CO2 emissions from the power generation plant, the prime contributor to global anthropogenic emission. There are many options for capturing CO2, of which, chemical absorption CO2 capture technology is found to be very effective and ready for commercial application in a scale required by the power plant. In chemical absorption, CO2 is separated from flue gas by means of chemical reaction using chemical solvent. In order to facilitate continuous operation, the absorption reaction is reversed to regenerate the solvent to get it back to the absorption process. The major problem of the technology is that it consumes huge amount of energy, particularly the regeneration process of solvent. Research and development is being conducted to reduce the excessive energy consumption and one of the potential strategies is the synergetic integration of CO2 capture with power plant. In this research, process simulation model of chemical absorption CO2 capture process with a power plant in Central Queensland, Australia has been developed. The simulation result of the model is used for energy balance and thereby, identification of process synergies. It shows that significant improvement of energy efficiency can be achieved through utilizing the synergies for whole process integration.
Mahamud, R, Khan, MMK, Mohammad, R & Leinster, M 2012, 'Synergetic Integration of Chemical Absorption CO2 Capture with a Coal Power Plant', paper presented to the Central Region Engineering Conference, Central Queensland University, Rockhampton, Queensland, 10th-11th August, https://www.engineersaustralia.org.au/sites/default/files/shado/Divisions/Queensland%20Division/Events/2012/proceedings_1.pdf
No Research Grant
en-aus
HERDC2012
E1 - Full Conference Paper (Refereed)
HERDC Eligible
ERA Eligible
Carbon sequestration.
850603 Energy Systems Analysis.
ANZSRC (2008) : Socio-economic objective (SEO)
anzsrcseo
850703 Industrial Energy Conservation and Efficiency.
ANZSRC (2008) : Socio-economic objective (SEO)
anzsrcseo
090401 Carbon Capture Engineering (excl. Sequestration).
ANZSRC (2008) : Fields of Research (FOR)
anzsrcfor
090607 Power and Energy Systems Engineering (excl. Renewable Power).
ANZSRC (2008) : Fields of Research (FOR)
anzsrcfor
090407 Process Control and Simulation.
ANZSRC (2008) : Fields of Research (FOR)
anzsrcfor
Energy conservation.
Carbon capture --
Chemical absorption --
Energy efficiency --
Process integration --
Pinch analysis
Conference Paper.
Full Paper (Refereed)
acquire
ACQUIRECollection
HERDCCollection
ERACollection
Khan, Mohammad Masud Kamal.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Rasul, Mohammad.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Leinster, Malcolm.
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Central Queensland University.
Institute for Resource Industries and Sustainability (IRIS)
QCQU
Central Queensland University.
Faculty of Sciences, Engineering and Health.
Central Region Engineering Conference
(2012 :
Rockhampton, Qld.)
[electronic resource]
Central Region Engineering Conference 2012 proceedings,10-11 August, 2012, Rockhampton, Queensland.
Rockhampton, Queensland : Engineers Australia, 2012.
p. 33-40
8 pages
Refereed
ACQUIRE [electronic resource] : Central Queensland University Institutional Repository.
Published version.
https://www.engineersaustralia.org.au/sites/default/files/shado/Divisions/Queensland%20Division/Events/2012/proceedings_1.pdf
Full-text options.
http://hdl.cqu.edu.au/10018/931439.
PKy.×J- J- PK-
b|Xy.×J- J- @ cqu_9388+SOURCE1+SOURCE1.3UT `fPK-
b|Xy.×J- J- @Ÿ- cqu_9388+SOURCE1+SOURCE1.4UT `fPK ¢ >[