SU736336A2 - Device for automatic control of unitized thermal station power output - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CONTROL OF THE POWER OF THE BLOCK HEAT ELECTRIC: TANIUM

I

The invention relates to the technical means of an automated dispatch control system at the level of a power plant and is intended to control the active power plant in the launch modes.

According to the main author. St. HFC 632О31 knows a device for automatic control of the operation of a block thermal power plant, which contains a generator for the aggregate task, the inputs of which are connected to the BFIe unit of the plan load, the manual unit for the load. The analog output of which is connected through a sum - matrix to a load sharing unit connected to the aggregate power registers. The control dosage is connected to the power control aggregate blocks at the control input. The device contains a similar generator shutdown unit. One of the outputs of the control unit dosage unit is connected to one of the inputs of the aggregate task generator and to the input of the post-emergency fixation unit, which is connected to the aggregate blocks of the output with limited power, the switched inputs of which are connected to the load distribution unit, and the Generator Disconnect unit is connected to the adder.

With planned start-ups of the units or shutdowns, the change in the power of the units occurs according to the program formed by the automatic start-up and manually. When the unit is started up, it is included in the control system, or when it is switched on while being loaded, the capacity of the remaining operating units varies.

15 At the start-up of the unit, the power of the remaining operating units is the sum of the load of the newly switched on turbine unit. Since the turbo unit is usually started up to increase the total power of the station, the load of all the turbo units included in the control system increases at the end of the start up operations. Shutting down and shutting down the turbo SHregat; increasing the capacity of operating turbine units with their subsequent unloading. The inventive circuit - improving plant reliability in the start-up and installation modes of turbine units, will allow for a reduction in the thermal losses of the power plant in these modes. For this, the proposed device is equipped with power sensors and switches on each turbine unit, as well as the same control unit, lommuntr key and following converter, connected in series between. so, 6OI, and the switching key is SOEDINEL separate and inputs from the sensor. {and the power of each turbine unit, and the next converter is connected to separate PLI outputs with the specified manual load controller and control unit, the outputs of which are connected to the aggregate task driver and manual load controller and the switches are set between the output of each sensor and the input of the adder and in the amplifier & the control unit. The drawing shows the structural scheme of the proposed device. The device consists of load schedule preset 1, setter 2 for unscheduled load, manual setpoint 3 for load, adder 4, block 5 for load distribution, generator 6 of total task, unit 7 for disconnecting generators, modular regulators 8 for power of aggregate block 9 for power limiting, sensors Yu of power, an additional unit, consisting of a series-connected control unit 11, cam of the mutating key 12 and a follower converter 13, unit 14 of the control actions of the preventive autosal tiki. The outputs of the ms poo 1O sensors through the switch 15 are connected to the inputs of the adder 4. Commuting switch 12 is connected to separate inputs and to the sensors Yu of the power of each turbo unit. The next converter 1 b 13 is connected by separate outputs to the specified manual setpoint 3 of the load and the control unit 11, the outputs: ogins are connected to the totalizer 6 and the manual adad 3, and the switch 15 is set to the control unit 11 start circuit. the turbine unit, after it has been loaded by a predetermined amount, from the start-up key of the control key, the signal proportional to the power output of the turbo horn that is switched on, is sent to Kachsk; TE1C back smgsi to the input from the Mmator 4; s unit II, which opens S1ggnalom its output switching key 12 and a signal proportional to the power of the included eboagregata, is input to the servo transducer 13, block 11 transfers simultaneously blocks 3 and 6 in a high speed operation mode. The next converter 13 generates a pick-up pulse with a duration proportional to the power of the starting turbine unit, which, acting on the manual load control unit 3, changes its output signal by an amount corresponding to the power of the included turbine unit. Since the manual load adjuster is permanently connected to the aggregate task generator 6, at the output of the latter the signal changes by an amount proportional to the power of the turboshaft activated regatta. As soon as the control impunity produced by the transducer 13 ends, the latter sends a reset signal to the device 11, which puts the whole circuit in the mode of waiting for the next turbine unit to start or stop. The duration of the control pulse of the converter 13 and the speed of operation of the manual setter 3 of the load and the former 6 of the aggregate task are such, and the output signal of the former 6 is worked out with a range of no more Yume relative to the moment of closing the control key, i.e., almost instantly. In this way, the task of the station and the total feedback are changed simultaneously by the load of the switchable or disconnected turbine set. In the case of setting the load of the power station by the load-load generator, the ynpstB-element 11 and the following converter 13 affect the scheduler 1 of the KVG loop 1. The use of the proposed device improves the responsiveness of the station, increases the power of the station more quickly and more easily. the impact on the control devices of the turbine and boiler, i.e. the service life of the units increases. formula of the invention Device for automatic control of the power of a block thermal power plant according to the author. St. No. 632031, 573 characterized in that, with a chain of increasing the reliability of a power plant in operation in the start and stop modes of turbine units, the device is equipped with power sensors and switches on each turbine unit, as well as control units, a switching key and a follower converter connected in series between by itself, the switching key is connected by separate G6 inputs to the power sensors of each turbine unit, and the slug converter is connected to the separate outputs from the outputs with the specified handheld unit. load and control unit, the outputs of which are connected to the aggregate task driver and manual aanaT4HKOsi load, and the switches are installed between the output of each power sensor and the input of the adder and in the control unit start circuit.

Claims (1)

Claim A device for automatically controlling the power of a block thermal power plant by ed. St. No. 632 031, characterized in that, in order to increase the reliability of the power plant in operation in the start and stop modes of turbine units, the device is equipped with power sensors and switches on each turbine unit, as well as a control unit, a switching key and a tracking converter connected in series with each other moreover, the switching key is connected separately 736336 with 6 inputs with power sensors of each turbine unit, and the follow-up converter is connected by separate outputs to the new manual setpoint. load unit, the outputs of which are with a shaper of total and a manual load adjuster, and the switches are installed between the output of each power sensor and the input of the adder and in the trigger circuit of the control unit