Abstract

The structural-parametric optimization of the automatic control system for power units (ACSPU) of 300 MW of Lukoml’skaya GRES (Lukoml Local Condensing Power Plant) in the mode of both the permanent and the variable superheated steam pressure upstream of the turbine is under consideration. During 1974–1979, eight units of the Lukoml’skaya GRES implemented the ACSPU with a leading boiler power control. At the moment, these systems no longer meet all the frequency control quality requirements. In 2016, the daily schedule of electric loads of the Belarusian power system was as follows: the basic part of the schedule of electric loads was covered by combined heat and power plants (CHP) and by mini-CHP (which are the least maneuverable of the power plants), the semi-peak part of it–by local condensing power plants (Lukoml’skaya GRES and Berezovskaya GRES), the peak part–by import electric energy from neighboring power systems. However, this year the first unit of the Belorussian NPP will be put into operation, while the second one–in 2020. After the launch of the Belorussian NPP, it will cover basic part of load curve; CPPs will cover the semi-peak part, while the peak part of load curve will be covered by local condensing power plants. Correspondingly, due to the alteration of the structure of daily schedule of electric loads of the Belarusian power system, it is necessary to improve the efficiency of power units of Lukoml’skaya GRES as well as of the entire Lukoml’skaya GRES in general. This can be achieved with the help of the method of parametric optimization of the typical ACSPU proposed in the present paper. As a result, the quality of control of power and pressure upstream of the turbine will be improved; the flow of fuel will be reduced, as well as the turbine regulation valve displacement; environmental performance of entire power plant will be improved, too. The proposed technique has been confirmed by the results of computer simulation of transient processes in the automatic control system under external and internal disturbances.

Highlights

  • The structural-parametric optimization of the automatic control system for power units (ACSPU) of 300 MW of Lukoml’skaya GRES (Lukoml Local Condensing Power Plant) in the mode of both the permanent and the variable superheated steam pressure upstream of the turbine is under consideration

  • In 2016, the daily schedule of electric loads of the Belarusian power system was as follows: the basic part of the schedule of electric loads was covered by combined heat and power plants (CHP) and by mini-CHP, the semi-peak part of it–by local condensing power plants (Lukoml’skaya GRES and Berezovskaya GRES), the peak part–by import electric energy from neighboring power systems

  • Due to the alteration of the structure of daily schedule of electric loads of the Belarusian power system, it is necessary to improve the efficiency of power units of Lukoml’skaya GRES as well as of the entire Lukoml’skaya GRES in general. This can be achieved with the help of the method of parametric optimization of the typical ACSPU proposed in the present paper

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Summary

KN μ кзд

1. Структурная схема типовой системы автоматического управления мощностью энергоблоков Лукомльской ГРЭС. Проведен системный анализ научно-технической информации по системам автоматического управления мощностью энергоблоков, который показал, что типовая САУМБ не может удовлетворять современным требованиям стандартов к качеству регулирования частоты и мощности без существенного увеличения максимальных относительных величин регулирующих воздействий клапанами турбины и задающих воздействий котельным регулятором нагрузки [2]. Типовая САУМБ энергоблока 300 МВт Лукомльской ГРЭС в 2020 г. В последнее время опубликовано много работ, посвященных системам автоматического управления мощностью энергоблоков 300 МВт [5,6,7,8,9,10,11]. Из-за этого актуальной становится задача модернизации САУМБ энергоблоков, работающих в переменной части графика электрических нагрузок (в частности, Лукомльской ГРЭС), при помощи современных методов структурно-параметрической оптимизации

Описание предлагаемой системы автоматического управления мощностью энергоблоков
При При
Результаты математического моделирования переходных процессов
Вариант системы
САУМБ в режиме переменного давления перегретого пара перед турбиной

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