Research of the Temperature Decoupling Control for a MCFC/GT Hybrid System

Fan Yang; Hao Li; Yu Fei Wang; Hua Xue

doi:10.4028/www.scientific.net/AMR.614-615.343

Paper Titles

Development of Micro Rectangular Channel Gas Cooler
p.321

Experimental Study on the Temperature Evenness of Heat Pipe Using Magnetic Nano-Fluids as the Working Medium in Permafrost Regions
p.327

Optimization Designing of Jaw Crusher Teeth Plate Shape Based on the FEM Method
p.333

Effect of Injection Timing on Combustion Characteristics of a DI Diesel Engine Fuelled with Pistacia chinensis Bunge Seed Biodiesel
p.337

Research of the Temperature Decoupling Control for a MCFC/GT Hybrid System
p.343

Running Safety of High-Speed Train Equipped with Aerodynamic Brake under Cross Wind
p.348

An Experimental Investigation on a New Combustion System of Diesel Engine for Performance Optimization
p.355

Drawing Engine Universal Performance Characteristics Map Method Based on MATLAB
p.361

Control Strategies for Safe Diesel Particulate Filter Uncontrolled Regeneration during Idle
p.366

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 614-615Research of the Temperature Decoupling Control for...

Research of the Temperature Decoupling Control for a MCFC/GT Hybrid System

Abstract:

To a molten carbonate fuel cell/ gas turbine hybrid system, operating temperature which has significant influence on the performance and lifespan of system is researched. The decoupling control of multivariable system is proposed in the temperature control of a hybrid system. In the designing of decoupling controller, the intelligent decoupling method is used based on Quasi-Diagonal Recurrent Neural Network-PID. Simulation results show that the operating temperature of hybrid system can be effectively close to the desired setpoints based on the decoupling controller.