Study on Multivariable Optimization of Excessive Heat Steam Temperature Control Strategy in Thermal Power Plant
Abstract
as an important power supply in China, is of great significance to improve its operation efficiency and environmental performance. Overhot
steam temperature control is an important link in the safe and stable operation of thermal power plant. Therefore, the multivariable optimization research on the temperature control strategy of overthermal steam in thermal power plants is of great significance to improve the energy
efficiency, reduce the environmental pollution and enhance the market competitiveness. The purpose of this study is to deeply analyze and
optimize the overthermal steam temperature control strategy, and provide theoretical support and technical guidance for the green and efficient
operation of thermal power plants.
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[1] Zheng Mingxin, Xu Yongquan. Research and software development of fuzzy control algorithm for excessive heat steam temperature
control in thermal power plant [J]. Automated Expo, 2021, 38 (09): 70-75.
[2] Miao Rongxia, road away, Cai Qizhi, Yang Jing. Research on the optimal control algorithm of excessive heat steam temperature in thermal power plant [J]. Computer measurement and control, 2020, 28 (12): 81-85.
[3] Qian Hong, Feng Yuqing. Adaptive prediction controller design for excessive heat steam temperature control [J]. Journal of System
Simulation, 2019, 31 (05): 1002-1009.
[4] Guan Chenglong, Pan Weijia. Simulation of optimal control of excessive thermal steam temperature in thermal power plant boiler [J].
Computer Simulation, 2018, 35 (10): 145-149.
[5] Wang Hechen. Study on the influence of excessive heat steam temperature control in thermal power Plant [D]. North China Electric
Power University (Beijing), 2016.
DOI: http://dx.doi.org/10.70711/aitr.v2i4.4860
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