SU557231A1 - Thermal power station capacity control system - Google Patents

Description

(54) SYSTEM OF REGULATION OF POWER OF THERMAL POWER STATION

The drawing shows a block diagram of the proposed control system.

The power regulator 1 of the power plant with its inputs is connected to pressure sensors 2 steam in the chambers of the regulating stages of all turbines 3, and the output to power regulators 4 turbines, to the regulator 5 feed pumps and to the main pressure regulator 6 of steam generators 7, which is connected to regulators 8 heat load of all steam generators. The regulator of the 5 feed pumps receives a pressure pulse in the pressure collector of the feed water and sends signals to control the feed pumps. The pressure sensor 9 of the fresh steam in the common steam line through the differentiating device 10 is connected with the control mechanisms 11 of all turbines, which through the spools 12 of the speed regulators 13 act on the servo motors 14 of the turbine control valves. The pressure sensor 9 can also pulse, a differentiation device 10, directly, directly to the spools of 12 speed controllers of turbines 3.

The power control system of the power plant operates as follows.

The power regulator 1 receives from the dispatcher a task for changing the power. Having information about the capacity of each turbine, the controller chooses which turbines to transmit a signal to change the load. The power controllers of the 4 selected turbines, through their control mechanisms, change the load, and the pressure sensors 2 of the pair in the chambers of the control stages inform the power controllers about the implementation of the received tasks. At the same time, the control pulse from regulator 1 is fed to regulator 5j which compares it with the signal from the feedwater pressure sensor in the pressure manifold. If the signal difference reaches a predetermined, predetermined value, then regulator 5 sends a signal to change the pressure of the feed water. If at the moment of receiving the task for changing the power, the power station is operating at a constant pressure of fresh steam, then the signal from regulator 1 to the main pressure regulator 6 and regulator 5 of the nutrient pumps is constant and does not change until will not go to work with a gliding pressure of fresh steam. Transition of power station in an operating mode

at gliding pressure, fresh steam occurs when the total steam consumption through the turbines (or the total capacity of the power plant) becomes less than the determined value specified by the regulator 1.

The pressure sensor 9 of the fresh steam comes into operation only at gliding pressure and is intended to open turbine control valves. The signal from the pressure sensor 9 is supplied to the control mechanisms of the 11 turbines, which open control valves as the pressure of the fresh steam changes.

The use of the proposed power control system makes it possible for the power plant to operate at partial loads on the gliding pressure of fresh steam, as a result of which there is a possibility of significant fuel savings.

F

formula of invention

The power control system of a thermal power plant with a common steam line contains the main pressure regulator, the outputs of which are connected to the heat load regulators of steam generators, and the input is connected to one of the outputs of the power station power regulator, the other outputs of which are connected through turbine power regulators and their control mechanisms with turbine speed controllers spool valves, feed pump regulator, and pressure sensors of fresh steam and steam in the turbine control stage chambers, characterized in that order the Enhance work efficiency by providing both at a constant, and when sliding

fresh steam pressure, power controller and turbine power regulator inputs are connected to steam pressure sensors in turbine control stage chambers, the power regulator output of the power plant is additionally connected to the feed pump regulator inlet, and pressure sensors of fresh steam are connected via nonlinear elements to speed control spool,

g Sources of information taken into account when exp.pertiz:

1. USSR author's certificate

No. 69221, cl. F 22 35/00, 1946

2, USSR author's certificate

5 Ms 164895, class F 22 V 35/00, 1962

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