THERMAL SCIENCE

International Scientific Journal

Authors of this Paper

External Links

Jinsong Zhan

,

Jing Du

,

Shaofeng Dong

,

Wei Hu

SUPERHEATED STEAM TEMPERATURE SYSTEM OF THERMAL POWER CONTROL ENGINEERING BASED ON NEURAL NETWORK LOCAL MULTI-MODEL PREDICTION

ABSTRACT
The superheated steam temperature object of thermal power plant has the characteristics of time lag, inertia and time-varying parameters. The control quality of the conventional proportional integral derivate controller with fixed parameters will decrease after the object characteristics change. The generalized predictive control strategy of superheated steam temperature based on neural network local multi-model switching can achieve the goal of designing sub-controllers for fixed models under several typical operating conditions. When the system operating conditions change, the effective switching strategy is timely and accurate. Switch to the most suitable controller. The paper proposes a new smooth switching method, which can effectively suppress the large disturbance phenomenon of the object when switching. The simulation results verify the effectiveness of the control strategy.
KEYWORDS
multi-model, neural network, generalized predictive control, smooth switching
PAPER SUBMITTED: 2020-11-13
PAPER REVISED: 2020-12-12
PAPER ACCEPTED: 2021-01-15
PUBLISHED ONLINE: 2021-07-31
DOI REFERENCE: https://doi.org/10.2298/TSCI2104949Z
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2021, VOLUME 25, ISSUE Issue 4, PAGES [2949 - 2956]
REFERENCES
  1. Chen, J., Zhong, P. A., A Multi-Time-Scale Power Prediction Model of Hydro Power Station Considering Multiple Uncertainties, The Science of the Total Environment, 677 (2019), 8, pp. 612-625
  2. Dong, Z., et al., Automatic Generation Control for the Flexible Operation of Multimodular High Temperature Gas-Cooled Reactor Plants, Renewable and Sustainable Energy Reviews, 108 (2019), 7, pp. 11-31
  3. Wu, S., Study and Evaluation of Clustering Algorithm for Solubility and Thermodynamic Data of Glycerol Derivatives, Thermal Science, 23 (2019), 5, pp. 2867-2875
  4. Chang, H., et al., Technical Performance Analysis of a Micro-Combined Cooling, Heating and Power System Based on Solar Energy and High Temperature PEMFC, International Journal of Hydrogen Energy, 44 (2019), 38, pp. 21080-21089
  5. Kanalik, M., et al., Temperature Calculation of Overhead Power Line Conductors Based on Cigre Technical Brochure 601 in Slovakia, Electrical Engineering, 101 (2019), 3, pp. 921-933
  6. Oyvang, T., et al., Online Model-Based Thermal Prediction for Flexible Control of an Air-Cooled Hydro- Generator, IEEE Transactions on Industrial Electronics, 66 (2019), 8, pp. 6311-6320
  7. Wu, L. J., et al., On-Load Field Prediction of Surface-Mounted PM Machines Considering Non-Linearity Based on Hybrid Field Model, IEEE Transactions on Magnetics, 55 (2019), 3, pp. 1-11
  8. He, Y., et al., A New Model of Acid Fracturing Based on Boundary Element Method Coupled with Multi-Field Multi-Phase Process, Engineering Analysis with Boundary Elements, 115 (2020), 6, pp. 96-107
  9. Wu, S., Construction of Visual 3-D Fabric Reinforced Composite Thermal Perfomance Prediction System, Thermal Science, 23 (2019), 5, pp. 2857-2865
  10. Huang, S. S., et al., Observer-Based Capacitor Sensorless Control Applied to a Single-Phase Inverter System with Seamless Transfer, IEEE Transactions on Power Electronics, 34 (2019), 3, pp. 2819-2828
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Superheated steam temperature system of thermal power control engineering based on neural network local multi-model prediction

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence