Abstract
The modelling, model adjustment and simulation of two steam coolers and three superheaters on a boiler at Randers cogeneration plant is dealt with. The modelling method for the setting up of a model for the superheater system and its various sub-systems are described. The simulation method and mathematical basis are explained in addition to the adjustment of the model based on the measurements taken at the plant. These measurements are discussed and a sensitivity analysis is carried out. Guidelines for the developed true time simulator are presented. Details of the signal and terminal interface are given in addition to the overall description of the simulator software. (AB).
Citation Formats
Andersen, P, Hansen, T, and Soendergaard Pedersen, T.
Power plant superheater. Dynamic model, data acquisition, model adjustment, real-time simulation; Kraftvaerksoverheder. Dynamisk model, dataopsamling, modeltilpasning, sandtidssimulering.
Denmark: N. p.,
1988.
Web.
Andersen, P, Hansen, T, & Soendergaard Pedersen, T.
Power plant superheater. Dynamic model, data acquisition, model adjustment, real-time simulation; Kraftvaerksoverheder. Dynamisk model, dataopsamling, modeltilpasning, sandtidssimulering.
Denmark.
Andersen, P, Hansen, T, and Soendergaard Pedersen, T.
1988.
"Power plant superheater. Dynamic model, data acquisition, model adjustment, real-time simulation; Kraftvaerksoverheder. Dynamisk model, dataopsamling, modeltilpasning, sandtidssimulering."
Denmark.
@misc{etde_10148443,
title = {Power plant superheater. Dynamic model, data acquisition, model adjustment, real-time simulation; Kraftvaerksoverheder. Dynamisk model, dataopsamling, modeltilpasning, sandtidssimulering}
author = {Andersen, P, Hansen, T, and Soendergaard Pedersen, T}
abstractNote = {The modelling, model adjustment and simulation of two steam coolers and three superheaters on a boiler at Randers cogeneration plant is dealt with. The modelling method for the setting up of a model for the superheater system and its various sub-systems are described. The simulation method and mathematical basis are explained in addition to the adjustment of the model based on the measurements taken at the plant. These measurements are discussed and a sensitivity analysis is carried out. Guidelines for the developed true time simulator are presented. Details of the signal and terminal interface are given in addition to the overall description of the simulator software. (AB).}
place = {Denmark}
year = {1988}
month = {Dec}
}
title = {Power plant superheater. Dynamic model, data acquisition, model adjustment, real-time simulation; Kraftvaerksoverheder. Dynamisk model, dataopsamling, modeltilpasning, sandtidssimulering}
author = {Andersen, P, Hansen, T, and Soendergaard Pedersen, T}
abstractNote = {The modelling, model adjustment and simulation of two steam coolers and three superheaters on a boiler at Randers cogeneration plant is dealt with. The modelling method for the setting up of a model for the superheater system and its various sub-systems are described. The simulation method and mathematical basis are explained in addition to the adjustment of the model based on the measurements taken at the plant. These measurements are discussed and a sensitivity analysis is carried out. Guidelines for the developed true time simulator are presented. Details of the signal and terminal interface are given in addition to the overall description of the simulator software. (AB).}
place = {Denmark}
year = {1988}
month = {Dec}
}