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High-efficiency low LCOE combined cycles for sour gas oxy-combustion with CO[subscript 2] capture.
High-efficiency low LCOE combined cycles for sour gas oxy-combustion with CO2 capture
The growing concerns over global warming and carbon dioxide emissions have driven extensive research into novel ways of capturing carbon dioxide in power generation plants. In this regard, oxy-fuel combustion has been considered as a promising technology. One unconventional fuel that is considered is sour gas, which is a mixture of methane, hydrogen sulfide and carbon dioxide. In this paper, carbon dioxide is used as the dilution medium in the combustor and different combined cycle configurations were considered and analyzed, each with a different way of dealing with the harmful sulfur products in the working fluid. Out of these options, which included acid resistance, no-condensation and SOx removal cycles, it is found that the cycle using acid resistant materials to have the best efficiency at 45.2%. However the cost of electricity (COE) of the cycle incorporating SOx removal is about 3% lower. Comparing these combined cycles to the sour gas water cycles discussed in our previous paper (Chakroun and Ghoniem, 2015), it is evident that sour gas based oxy-combustion combined cycles generally perform better in terms of both technical and economical performance. Therefore, it is concluded that the best process cycle to use for this sour gas fuel to be the combined cycle with the SOx removal system. This high-efficiency cycle has the lowest COE out of all of the five cycles studied.
High-efficiency low LCOE combined cycles for sour gas oxy-combustion with CO[subscript 2] capture.
High-efficiency low LCOE combined cycles for sour gas oxy-combustion with CO2 capture
The growing concerns over global warming and carbon dioxide emissions have driven extensive research into novel ways of capturing carbon dioxide in power generation plants. In this regard, oxy-fuel combustion has been considered as a promising technology. One unconventional fuel that is considered is sour gas, which is a mixture of methane, hydrogen sulfide and carbon dioxide. In this paper, carbon dioxide is used as the dilution medium in the combustor and different combined cycle configurations were considered and analyzed, each with a different way of dealing with the harmful sulfur products in the working fluid. Out of these options, which included acid resistance, no-condensation and SOx removal cycles, it is found that the cycle using acid resistant materials to have the best efficiency at 45.2%. However the cost of electricity (COE) of the cycle incorporating SOx removal is about 3% lower. Comparing these combined cycles to the sour gas water cycles discussed in our previous paper (Chakroun and Ghoniem, 2015), it is evident that sour gas based oxy-combustion combined cycles generally perform better in terms of both technical and economical performance. Therefore, it is concluded that the best process cycle to use for this sour gas fuel to be the combined cycle with the SOx removal system. This high-efficiency cycle has the lowest COE out of all of the five cycles studied.
High-efficiency low LCOE combined cycles for sour gas oxy-combustion with CO[subscript 2] capture.
High-efficiency low LCOE combined cycles for sour gas oxy-combustion with CO2 capture
Chakroun, Nadim Walid (Autor:in) / Ghoniem, Ahmed F (Autor:in)
2015
Chakroun, N.W., and A.F. Ghoniem. “High-Efficiency Low LCOE Combined Cycles for Sour Gas Oxy-Combustion with CO[subscript 2] Capture.” International Journal of Greenhouse Gas Control 41 (October 2015): 163–173.
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Financial Model of Levelized Cost of Electricity (LCOE) for Bioenergy Resources in Pakistan
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