Research and Application of Intelligent Control Technology for Main Steam Temperature Regulation in Ultra-Supercritical Thermal Power Plants

Shan Shan Li; Zheng Yu Liang; He Ren

doi:10.4028/www.scientific.net/AMM.448-453.3240

Paper Titles

Study of Cold-State Aerodynamic Field Test on the Outlet of 2150t/h Supercritical Once-Through Boiler
p.3217

Influence Study of the Influence Domain to Numerical Simulation Results with Meshless Method
p.3223

The Study on Heat Transfer Model and Algorithm of Multi-Sectional Regenerative Air Heater in Power Plant Boiler Based on Analytical Method
p.3229

Numerical Research on Self-Sustained Oscillation and Chaos of Natural Convection in Horizontal Fluids Layer
p.3234

Research and Application of Intelligent Control Technology for Main Steam Temperature Regulation in Ultra-Supercritical Thermal Power Plants
p.3240

Study on the Influence of the Operation Parameters to the Ground Source Heat Pump Energy Efficiency Ratio
p.3245

Research of Calculation Parameters Selection of Line-by-Line Model and Narrow Band K-Distribution Model
p.3250

Experimental Studies on the Seawater Desalination System Based on Ocean Thermal Energy Conversion
p.3254

Experimental Study on Compact External Heat Exchanger for a 4 MW_th Circulating Fluidized Bed Combustor
p.3259

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 448-453Research and Application of Intelligent Control...

Research and Application of Intelligent Control Technology for Main Steam Temperature Regulation in Ultra-Supercritical Thermal Power Plants

Abstract:

Main steam temperature regulation is one of the most demanded control loop in modulating control system of thermal power plant. According to the characteristics of main steam temperature, an intelligent control technology has been proposed. To eliminate lag and inertia in main steam temperature regulation process, the intelligent control technology integrates several advanced algorithms. The application effects in several ultra-supercritical thermal power plants prove that the control technology has outstanding robustness and excellent adaptability in both variable load and steady state condition.

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Periodical:

Applied Mechanics and Materials (Volumes 448-453)

Pages:

3240-3244

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.448-453.3240

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Online since:

October 2013

Authors:

Shan Shan Li*, Zheng Yu Liang, He Ren

Keywords:

GPC, Intelligent Feed-Forward, Intelligent Identification, Main Steam Temperature, State Observer, Thermal Power Plant

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