Abstract
The title of this project is System Modelling of Integrated Gasification Combined Cycle (IGCC) Power Plants and the purpose of the project has been to develop a flowsheet simulator which can simulate IGCC Power Plants, and to use the model to calculate thermal efficiency of IGCC Power Plants. A flowsheet simulator called SEPSIM from DTH has been used as a framework for the modelling effort. An equilibrium model based upon minimization of Gibbs energy has been used to simulate entrained flow gasification reactors. A two zone model has been used to simulate counter-current moving bed gasifiers. Both models have been included in the SEPSIM package. The modified SEPSIM flowsheet model has been used to simulate three IGCC systems, one slurry and one dry fed entrained flow systems, and one moving bed IGCC system. Thermal efficiency of all systems has been calculated for different inlet temperature to the gas turbine using both full superheating and max. superheating to 1000 deg. F in the steam system. (au) (24 refs.).
Citation Formats
Fjellerup, J.
System modelling of integrated gasification combined cycle power plants.
Denmark: N. p.,
1992.
Web.
Fjellerup, J.
System modelling of integrated gasification combined cycle power plants.
Denmark.
Fjellerup, J.
1992.
"System modelling of integrated gasification combined cycle power plants."
Denmark.
@misc{etde_10140531,
title = {System modelling of integrated gasification combined cycle power plants}
author = {Fjellerup, J}
abstractNote = {The title of this project is System Modelling of Integrated Gasification Combined Cycle (IGCC) Power Plants and the purpose of the project has been to develop a flowsheet simulator which can simulate IGCC Power Plants, and to use the model to calculate thermal efficiency of IGCC Power Plants. A flowsheet simulator called SEPSIM from DTH has been used as a framework for the modelling effort. An equilibrium model based upon minimization of Gibbs energy has been used to simulate entrained flow gasification reactors. A two zone model has been used to simulate counter-current moving bed gasifiers. Both models have been included in the SEPSIM package. The modified SEPSIM flowsheet model has been used to simulate three IGCC systems, one slurry and one dry fed entrained flow systems, and one moving bed IGCC system. Thermal efficiency of all systems has been calculated for different inlet temperature to the gas turbine using both full superheating and max. superheating to 1000 deg. F in the steam system. (au) (24 refs.).}
place = {Denmark}
year = {1992}
month = {Nov}
}
title = {System modelling of integrated gasification combined cycle power plants}
author = {Fjellerup, J}
abstractNote = {The title of this project is System Modelling of Integrated Gasification Combined Cycle (IGCC) Power Plants and the purpose of the project has been to develop a flowsheet simulator which can simulate IGCC Power Plants, and to use the model to calculate thermal efficiency of IGCC Power Plants. A flowsheet simulator called SEPSIM from DTH has been used as a framework for the modelling effort. An equilibrium model based upon minimization of Gibbs energy has been used to simulate entrained flow gasification reactors. A two zone model has been used to simulate counter-current moving bed gasifiers. Both models have been included in the SEPSIM package. The modified SEPSIM flowsheet model has been used to simulate three IGCC systems, one slurry and one dry fed entrained flow systems, and one moving bed IGCC system. Thermal efficiency of all systems has been calculated for different inlet temperature to the gas turbine using both full superheating and max. superheating to 1000 deg. F in the steam system. (au) (24 refs.).}
place = {Denmark}
year = {1992}
month = {Nov}
}