Options
Dynamic behavior of coal-fired power plants with postcombustion CO₂ capture
Citation Link: https://doi.org/10.15480/882.1433
Publikationstyp
Journal Article
Date Issued
2016-11-08
Sprache
English
Institut
TORE-DOI
Citation
Industrial & Engineering Chemistry Research Vol. 55(2016), no. 46, pp. 12038–12045
Publisher DOI
Scopus ID
Publisher
American Chemical Society
The combined operation of postcombustion
CO₂ capture and a power plant is a complex process with
significant mutual interactions. Although the application of
CO₂ capture imposes an efficiency penalty on the power plant,
it also provides the opportunity to operate the power plant in a
more flexible way. To analyze this process, a detailed model of
a postcombustion capture plant is developed and validated
with measurement data. Afterward, the model is coupled to the
model of a hard coal-fired power plant to study the effects of a
joint operation. In a case study scenario, the steam extraction
of the carbon capture plant is reduced by 50% to increase the power generation of the power plant. The results indicate that it is
possible to provide primary frequency control by using this mode of operation.
CO₂ capture and a power plant is a complex process with
significant mutual interactions. Although the application of
CO₂ capture imposes an efficiency penalty on the power plant,
it also provides the opportunity to operate the power plant in a
more flexible way. To analyze this process, a detailed model of
a postcombustion capture plant is developed and validated
with measurement data. Afterward, the model is coupled to the
model of a hard coal-fired power plant to study the effects of a
joint operation. In a case study scenario, the steam extraction
of the carbon capture plant is reduced by 50% to increase the power generation of the power plant. The results indicate that it is
possible to provide primary frequency control by using this mode of operation.
Subjects
CO2-Abscheidung
Energietechnik
Modellierung und Simulation
Kraftwerksmodellierung
Regelenergie
DDC Class
620: Ingenieurwissenschaften
More Funding Information
Bundesministerium für Wirtschaft und Energie
Loading...
Name
Paper_Wellner_Marx-Schubach.pdf
Size
841.66 KB
Format
Adobe PDF