Advanced modeling and simulation of integrated gasification combined cycle power plants with CO2-capture / Fortgeschrittene Modellierung und Simulation von GuD-Kraftwerken mit integrierter Kohlevergasung und CO2-Abtrennung

Rieger, Mathias

14 August 2014

The objective of this thesis is to provide an extensive description of the correlations in some of the most crucial sub-processes for hard coal fired IGCC with carbon capture (CC-IGCC). For this purpose, process simulation models are developed for four industrial gasification processes, the CO-shift cycle, the acid gas removal unit, the sulfur recovery process, the gas turbine, the water-/steam cycle and the air separation unit (ASU). Process simulations clarify the influence of certain boundary conditions on plant operation, performance and economics. Based on that, a comparative benchmark of CC-IGCC concepts is conducted. Furthermore, the influence of integration between the gas turbine and the ASU is analyzed in detail. The generated findings are used to develop an advanced plant configuration with improved economics. Nevertheless, IGCC power plants with carbon capture are not found to be an economically efficient power generation technology at present day boundary conditions.

IGCC

CO2-Abtrennung

Kohlendioxidabtrennung

LZA-Integration

Luftzerlegungsanlage

Kohlevergasung

Gaskonditionierung

CO-Konvertierung

Sauergasentfernung

Gasturbine

GuD

IGCC

CO2-capture

carbon capture

ASU integration

air separation unit

coal gasification

gas conditioning

CO-shift

acid gas removal

gas turbine

combined cycle

ddc:600

Kombinationskraftwerk

Kohlevergasung

Carbon dioxide capture and storage

Emissionsverringerung

Prozesssimulation

Gasreinigung

Gaszerlegung

Sauergas

Kohlenmonoxid

Kohlendioxid

Advanced modeling and simulation of integrated gasification combined cycle power plants with CO2-capture

Rieger, Mathias

17 April 2014

The objective of this thesis is to provide an extensive description of the correlations in some of the most crucial sub-processes for hard coal fired IGCC with carbon capture (CC-IGCC). For this purpose, process simulation models are developed for four industrial gasification processes, the CO-shift cycle, the acid gas removal unit, the sulfur recovery process, the gas turbine, the water-/steam cycle and the air separation unit (ASU). Process simulations clarify the influence of certain boundary conditions on plant operation, performance and economics. Based on that, a comparative benchmark of CC-IGCC concepts is conducted. Furthermore, the influence of integration between the gas turbine and the ASU is analyzed in detail. The generated findings are used to develop an advanced plant configuration with improved economics. Nevertheless, IGCC power plants with carbon capture are not found to be an economically efficient power generation technology at present day boundary conditions.

info:eu-repo/classification/ddc/600

ddc:600