SU580333A1 - System for regulating central heating and power plant with common steam line - Google Patents

Description

one

The invention relates to the field of power engineering and can be used in the automation of thermal electroplating with cross-links.

Control systems of a thermal power plant with a common steam line are known, which contain a main pressure regulator whose outputs are connected to regulators of steam generators, an electrical load regulator associated with control mechanisms of turbines, a regulator of feed pumps and pressure sensors of fresh steam and steam in control stages Turbines 1. These systems ensure the operation of the power plant with both constant and gliding pressure of fresh steam. However, they cannot be used in power plants with heat-generating turbines, where there are heat and electric distributors and loads.

There is also known a control system for a combined heat and power plant (CHP) with a common steam pipe, which contains a pressure unit with a core regulator connected to it, the outputs of which are connected to steam generator controllers, thermal and electrical load distributors, to the outputs of which are connected sensors of these loads, and turbine control mechanisms, feed pump controller, and steam pressure sensors in turbine control stages 2. Such a system provides automatic distribution of wallpaper. x types of loads on the electric system tion with teplof 1katsionnymi turbines. The disadvantage of this system is its low sKOHOinm-iocTb due to the fact that it does not work at slippage and is supplied with pressure of fresh steam.

The aim of the invention is to increase the efficiency of the system by providing hp

works both at constant and sliding pressure of fresh steam. This is achieved by the fact that the proposed system additionally contains a cy iop, to the inputs of which steam pressure sensors in the regulating stages of the turbines are connected, and the outputs are connected to the inputs of the distributors of thermal and electrical loads and the pressure setter, which is additionally connected to the controller of the multipurpose pumps.

The drawing is given when 11C 1pial: 1 scheme of the described system.

The inputs of the electric load distributor 1 (REN) are connected to the sensors 2 of the electric load of all turbines of the CHP plant, and the output is connected via controllers 3 of power with the mechanisms 4 controls all turbines and further through the spools of 5 speed regulators with immersed Ui 7 spools 7, which Through intermediate spools 8–10 servomotors 11–13 of the pressure regulator valves, high pressure portions 14, medium pressure portions 15 and low pressure portions 16 change the electrical load of the turbines. The input of the distributor 17 of the industrial heat pipe (PTH-I) is connected to sensors 18 for the heat load of industrial selections of all turbines, and the output is connected to mechanisms 19 for controlling all turbines, which through their regulators 20 pressure and summing spool 7 connect to turbine valves. The input of the distributor 21 of the thermal heating load (PTN-2) is connected to the sensors 22 of the heat load of heat extraction samples of all turbines, and the output to the mechanisms 23 controlling the pressure regulators 24 in these selections. A fresh steam pressure sensor 25 in the steam pipe 26 is connected via intermediate shut-off spool 27 to intermediate spool 8 of servomotor 11. The pressure setpoint 28 input is connected via an adder 29 to pressure sensors 30 in the control stages of all turbines, and the output is connected to a regulator 31 feed pumps and the main controller 32, which through the regulators 33 of the steam generators 34 acts on all steam generators of the CHP. The inputs REN, RTN-1 and RTN-2 are connected to the adder 29. This is necessary so that the electrical and thermal load distributors have information about the steam consumption in the turbines.

The control system works as follows.

REN 1, RTN-1, 17 and RTN-2 21 receive from the dispatcher a task to change the corresponding load of the CHP. Having information about the load of each unit and the flow meter supplied to all turbines, REN, RTN-1 and decide which turbines to transmit a signal to change the corresponding load.

The power regulators 3 and the pressure regulators 20 and 24 of the selected turbines, through their automatic control systems, change the load. WHEN changing the turbine load, the steam flow to the turbine and the pressure sensor 30 in the regulating stage, through the adder 29, inform the controller 28, which, when the CHP operates at the gliding pressure of fresh steam, generates a new reference signal to the main regulator 32 and the nutrient regulator 31. pumps. The main controller transfers the steam generators to the new mode. The feed pump regulator 31 compares the pressure signals in the pressure of the feedwater collector and from the setting unit 28 and, if the signal difference reaches a certain value, sets a signal to turn on or off the power supply pump. If at the moment of receiving the task to change the load, the CHP operates at a constant vapor pressure, then the signal from the setpoint 28 to the main controller 32 and the controller 31 of the feed pumps is constant and does not change until the CHP goes to work when pressure.

The transfer of CHP to work at a gliding pressure of fresh steam occurs when the total steam consumption through the turbines becomes less than the predetermined value specified by the pressure setter. The fresh-steam pressure sensor 25 only comes into operation at a variable pressure in the common steam line 26 and is intended to open the turbine's check valves. The signal from the pressure sensor 25 is fed through the shut-off spool 27 to the pulse line of the intermediate spool 8 of the servomotor 1 1 control valves, which open as the pressure of the fresh steam changes.

The use of the proposed regulation of the CHP plant 1) 1 allows the station to operate with partial Hai-packs on slippery pressure of fresh steam, as a result of which there is a possibility of significant fuel savings.

Claims (2)

1. USSR author's certificate for application number 2143678, cl. F 22B.35 / 00, 1975. 2. second certificate of the USSR LL 447804, cl. And 02P 9/04, 1973. , / b