SU1373973A1 - System for regulating temperature conditions and steam overheating of straight-through boiler unit - Google Patents

Abstract

The invention improves the accuracy of the control system. The system contains a temperature controller 1, a sensor (D) 2 steam t-ry at an intermediate point of the path, differentiators 3.8, 13 D 4 auxiliary parameters, a control valve (RK) 5 feedwater flow, regulators 6, 11 steam overheating , D 7 steam temperature at the second stage of steam superheater, D 9 temperature at the first injection, RK 10 water consumption at the first injection, D 12 steam temperature at the third stage of the superheater, D 14 temperature at the second injection, RK 15 water consumption at the second injection, corrective regulators 16,19, D 17 expenses and water for the first injection, filters 18,23, adder 20, limiters 21, 24 signals, D 22 water consumption for the second injection and filter 23. With different modes of the boiler, leading to a change in the costs of injection, the control system keeps them at minimum acceptable level. This ensures cost-effective operation of the boiler. 1 il. (L

Description

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The invention relates to automation means for flow boilers.

The purpose of the invention is to increase the accuracy of the system and increase the efficiency of the boiler unit.

The drawing shows a block diagram of the proposed system.

The temperature control and steam superheat control system of the boiler unit contains a temperature controller 1, the first input of which is connected to the steam temperature sensor 2 at an intermediate point of the path, to the second through the first differentiator 3 - sensors 4 (auxiliary parameters, for example, feed water flow and and its output is connected to the feedwater flow control valve 5. In addition, the system contains the first steam overheat controller 6, to the first input of which the temperature sensor 7 is connected steam for the second stage of the steam superheater, to the second through the second differentiator 8 In case of deviation of the average water flow for the second injection from the first correction regulator 16, the signal goes to the temperature controllers 1 and 6 and the steam overheating, the task of this regulator changes For example, if the flow rate of the second injection is higher, therefore, the temperature for this injection is zavppen, the task is re (with the Gultor 1 and 6 of the temperature mode and egreva pair umenshits, t

The temperature sensor 9 after the first injection will drop the com, and its output is connected to the water flow control valve 10 for the first injection, the second steam overheat controller 11, to the first input of which the steam temperature sensor 12 is connected after the third step

the cost of the second injection will decrease

If the average flow rate in the dyes changes for the first injection, the correction to the back of the regulator 1 of the temperature regime will come from the second correction regulator 19.

superheater, to the second through the third differentiator 13 - temperature sensor 14 after the second injection, and its output is connected to the flow rate control valve 15 for the second injection, the first correction regulator 16, connected in series to the water flow sensor 17 for the first injection, the first filter 18, the second correction regulator 19, the adder 20 and the first signal limiter 21, which are connected in series to the water flow sensor 22 for the second injection and the second filter 23, as well as the second signal limiter 24, the output of which is connected to the third input a first regulator 6 superheating, and the input is coupled to the second input of the third vhochey regulator 1 temperature.

The control system works as follows.

Temperature control regulators 1, 6 and 11, the first superheat regulator, the second superheat regulator stabilize the temperatures at the intermediate point of the tract, respectively, after the second and third stages of the superheater, affecting the feedwater flow rate and the water consumption for the first and second injections.

In case of deviation of the average water consumption for the second injection from the first correction regulator 16, a signal is sent to the temperature controllers 1 and 6 and superheating of steam, the task of this regulator is changed to maintain the temperatures controlled by them, and the average injection value is restored. For example, if the flow rate of the second injection is overestimated, therefore the temperature before this injection is scorched, the task by the controller (Temperature 1 and 6 of the temperature regulator and steam overheating will decrease, the temperatures along the path will fall and

the flow rate for the second injection will decrease.

If the average water consumption at the first injection changes, the adjustment of the task to the temperature controller 1 comes from the second correction controller 19.

Thus, with different modes of the boiler, leading to changes in the cost of injection, the proposed control system maintains their value at the minimum acceptable level, which ensures

the efficiency of the boiler.

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Claims (1)

Invention Formula A temperature control and steam superheat control system containing a temperature controller, to the first input of which the steam temperature sensor is connected at an intermediate point of the channel, to the second through the first differentiator - auxiliary parameters sensors, and its output the house of the adder 20 and is connected to the output, is connected to the control valve For the first adjustment regulator 16, the input of which is connected to the output of the second filter 23, the output of the first limiter 21 of the feedwater flow control signal, the first overheating regulator niapa, to the first input of which the steam temperature sensor is connected after the second stage n feedwater flow rate, the first overheating controller niapa, to the first input of which the steam temperature sensor is connected after the second stage of the superheater, to the second through the second differentiator - the temperature sensor behind the first injection, and its output is connected to the control valve of the water flow rate for the first injection, the second steam overheat controller, to the first input of which the steam temperature sensor is connected after the third stage of the superheater, to the second through the third differentiator - a temperature sensor for the second injection, and its output is connected It controls the flow rate control valve for the second injection and the first correction regulator, which, in order to ensure the accuracy of operation, it additionally contains a series-connected flow sensor for the first injection, the first filter, the second adjustment regulator, the adder and the first a signal limiter connected in series by a water flow sensor for the second injection and a second filter, as well as a second signal limiter whose output is connected to the third input of the first steam superheat controller and the input a second input coupled to the adder and to an outlet of the first correction regulator having an input connected to the output of the second filter, the first limiter signal output is connected to the third input of the regulation temperature torus (Tournier mode.