SU1239449A1 - Method of controlling steam generator output - Google Patents

Description

The invention relates to a power system and can be used in the automation of thermal, power plants with steam generators operating on a common highway.

The purpose of the invention is to increase efficiency.

The drawing shows the control system for implementing the proposed method.

The capacity control system of steam generators 1 and 2, connected together with turbines .3 and 4 to a common steam line 5, contains sensors 6 and 7 of steam pressure upstream of turbines 3 and 4, pressure setpoint 8, amplifier 9, adder 10, and a correction regulator 11, sensors 12 and 13 of steam consumption at the output of steam generators 1 and 2, sensors 14 and 15 of steam consumption at the entrances to turbines 3 and 4, blocks 16 and 17 for calculating the difference of signals from steam consumption from steam generators 1 and 2 to turbines 3 and 4 , the setting device 18 of the steam flow in the area of the steam line between the steam generator tori 1 and 2, an adder 19 calculating a difference signal (not shown) of the thermal load with steam generators 1 and 2, the regulators 20 and 21 of the thermal load, the regulators 22 and 23.

The method is carried out as follows.

The input of the adjusting regulator 11 by the setting device 8 sends a reference signal to the steam pressure upstream of the turbine 4, which is processed by a cascade control system including a correcting regulator 11, a heat load regulator 21, a regulator 23, a steam generator 2, a pressure sensor 7. At the end of the transition process, the desired values for heat, steam flow and pressure are set in this system. At the same time, a transient process occurs in the control system of the steam generator 1. Moreover, the vapor pressure in front of the turbine 4 is used as a pressure task in front of the turbine 3. The reference signal through amplifier 9 is fed to the input of the adder 10 simultaneously with the pressure signal measured by sensor 6. The difference of the signals goes to input of heat load controller 20. The amplifier 9 is used to change the proportion of relative participation in the regulation of each of the steam generators. Heat Qz is used as a heat task for the steam generator 1. At the output of the adder 19, an error signal i Qa-Qi is generated, which is fed to the input of the heat load regulator 20. The controller 20 is tuned to ensure that Pt Pa Qi Qa is practically equal throughout the transition process. Therefore, there is no steam consumption in the section of highway 5, the steam consumption from the steam generator 1 to the turbine 3 is equal to the steam consumption from the steam generator 2 to the turbine 4 and the signals from the sensors 12-15 are respectively equal. When disturbances occur in the system

internal (on the fuel supply side) or external (on the turbine load side) - steam flows are transmitted through a section of the highway 5 in transient conditions Let, for example, the load be relieved on the turbine 3. In the system, the pressure rises, the correction regulator And and the adder 10 receive signals of increasing the vapor pressure from sensors 6 and 7 and issue the task to the regulators 20 and 21 to reduce the heat load of the steam generators 1 and 2. At the same time, the steam flow from the steam generator 1 is directed along the line section 5 to the turbine 4 and from the steam flow sensor 15 through the block 17 to the input of the heat load controller 21 a signal is added. As steam consumption per turbine 3 decreases,

Then the signal from sensor 14 through block 16 is fed to the input of heat load controller 20 with the sign “Reduce. Thus, the input of the heat load regulator 20 receives two signals “Reduce, as a result

which the steam generator 1 will forcefully release the load. Two signals also come to the input of the heat load controller 21: one with the sign "Turn off (from the correction control knob 11) and one with the sign" Add (from the subtractor 17 and the flow sensor 15). The sum of these signals is zero. The heat load controller 21 does not enter operation and the steam generator 2 does not change the load. After the end of the transition process, the load on the turbine 3 is changed by changing

performance of the steam generator 1 and on the main line 5 steam consumption is still zero. Since the steam generator 2 plays the role of the lead (coupon steam generator, upon completion of the transient processes, the steam pressure at the turbine 3 inlet is set equal to the pressure of the turbine 4, i.e., the redistribution of the load of the steam generators is excluded.

In the case of a load on turbine 3, the system works in the same way, only signs

all considered signals are reversed.

Let for some reason (load limitation on the steam generator or turbine for operational reasons, fulfillment of the conditions of economical load distribution, etc.), the setting device 18 establishes a non-zero steam flow through the section of highway 5, for example, from the steam generator 1 to the turbine 4, equal in value to D. In this case, under the influence of the setpoint 18 signal, the steam generator 2 releases the load D, and the steam generator 1 gains the same load. As the load is relieved by the steam generator 2 and the load of the steam generator is set 1239449 34

Rum 1 steam consumption through the trunk line of the dial 18 is compensated by the signal-5 to the turbine 4 and increases at the time when the steam flow rate sensor 12 decreases, the steam flow reaches the value D, a zero signal is set to the block 17 after you complete the transition process the steam flow through the section of the highway 5 is set, i.e. the signal “Turn off from the setting knob 18 is equal to the value D. The output values of the block 17 are compensated for compensating the signal steam flow rates from the specified values of the“ Add delivery measure 15 gauge ” the same d m ystvi systems Similarly 16regulirovani output unit that occur at The relative also zero, since the signal "nailed-zero deviation from the predetermined flow rate.

Claims (1)

METHOD FOR REGULATING THE PRODUCTIVITY OF STEAM GENERATORS, connected together with the turbines to a common steam line by measuring the steam pressure in front of the turbines, comparing each of them with a given value, determining the difference in steam flow rates at the outlet of the steam generator and at the entrance to the corresponding turbine and the effects from the obtained values on the heat load regulator, characterized in that, in order to increase efficiency, measure the magnitude of the thermal loads of the steam generators, compare one of them with the other, selected d as a reference, and according to the differences obtained, additionally affect the heat load regulators of the steam generators, and the current value of one of the turbines is used as a signal for setting the steam pressure in front of the turbines. SU, „. 1239449