SU731423A1 - Device for control of cascade evaporator of regeneration boiler unit - Google Patents

Description

one

This invention relates to devices for controlling cascade evaporators of soda recovery boilers used in pulp production.

A device for controlling a cascade evaporator of a codoregenerative boiler unit is known, comprising a black liquor density sensor at the cascade evaporator outlet connected to a regulator of the supply of weak white liquor to the cascade evaporator 1 associated with the actuator.

This device does not automatically stabilize the nominal density of black liquor at the outlet of the cascade evaporator within the specified accuracy limits due to the presence of disturbances caused by changes in flow rates and temperatures of combustion products at the inlet and outlet of the cascade evaporator, flow rates and temperatures of black and weak liquor at the entrance to the cascade evaporator and the consumption of black liquor at the outlet of the cascade evaporator.

The purpose of the invention is to improve the quality control of the density of black liquor at the outlet of a cascade evaporator of a soda recovery boiler.

The goal is achieved by the fact that the proposed device has flow sensors of combustion products installed at the inlet and outlet of a cascade evaporator, black liquor flow sensors with secondary devices, installed at the inlet and outlet of a cascade evaporator, a flow sensor of weak white liquor with a secondary device installed at the entrance

10 cascade evaporator, temperature sensors of combustion products installed at the inlet and outlet of the cascade evaporator, temperature sensor of weak white liquor installed at the inlet of the cascade evaporator and temperature sensor of black liquor installed at the evaporator inlet, totalizers, manual setting unit, key, magnetic starter and a regulator with a position indicator, with the outputs of the secondary devices

The 20 flow rates of the combustion products are connected to the inputs of one adder, the output of which is connected to one of the inputs of the second adder, the other inputs of which are connected to the outputs of the secondary devices of the black liquor flow rate at the inlet and the evaporator and the flow rate of the weak white liquor the inlet and outlet of the evaporator are connected to the inputs of the third adder, the outputs of the temperature sensors of the weak white silk and the black liquor at the inlet of the evaporator are connected to the cp by the input of the fourth adder, and the outputs of the third and Fourth adders are connected to the corresponding inputs of the fifth adder, while the outputs of the second and fifth adders are connected to the corresponding inputs of the controller, the output of which is connected to the keys, and the output of the latter is connected to the regulator by means of a magnetic actuator, the pilot mechanism, and the manual control knob is connected to the controller.

The drawing shows a diagram of a device for controlling a cascade evaporator of a co-generation boiler unit.

The device has a sensor 1 and a secondary device 2 flow of black liquor at the entrance to the cascade evaporator, sensor 3 and the secondary device 4 consumption of weak white liquor sensor 5 and the secondary device 6 consumption of black liquor at the output of the cascade evaporator, sensor 7 and the secondary device 8 consumption of combustion products at the entrance to the cascade evaporator, the sensor 9 and the secondary device 10 consumption of combustion products at the exit of the cass. cadre evaporator, adders 11 and 12, sensors 13 and 14 of combustion products temperature at the inlet and outlet of the cascade evaporator, respectively, adder 15, sensors 16 and 17 of the temperature of the black and white liquor at the inlet of the cascade evaporator, adders 18 and 19, sensor 20 and secondary device 21 black liquor density at the output of a cascade evaporator, regulator 22, manual control setter 23, switch and control switch 24, magnetic starter 25, actuator 26, regulator 27 for supplying weak white liquor to the cascade new evaporator, pointer 28 of the moving unit of regulator 2-7. Object 29 is a sprinkler that is a cascade evaporator of gas-contact type with a rotating tubular rotor.

The device works as follows. The signals from sensors 7 and 9 of the costs of combustion products installed at the inlet and outlet of the cascade evaporator, through the secondary devices 8 and 10 are fed to the input of the first adder 11.

The signals from the sensors 13 and 14 of the temperature of the combustion products installed at the input

and the output of the cascade evaporator, are fed to the input of the third adder 15.

The signals from the temperature sensors of the weak white liquor 7 and black liquor 36 at the evaporator input are fed to the input of the fourth adder 18. Signals from the outputs of the third 15 and fourth 18 adders are fed to the input of the fifth 19 adder.

Signal from sensor 1 and 5 via secondary

devices 2. and 6 black liquor consumption fia at the inlet and outlet of the cascade evaporator simultaneously with the output signal from the first 1 i adder and the signal from the sensor 3 through the secondary device 4 consumption of weak white

sh.loka from the entrance to the cascade evaporator

nocrynascT to the input of the second 12 adder. The signals from the output of the second 12 and 19 additional adders simultaneously with the signal from the sensor 20 through the secondary device 21 density

the black liquor at the output of the cascade evaporator and the signal from the manual control setting device 23 arrive at the input of the controller 22.

The output from the output of the controller 22 through the keys 24 and the magnetic actuator) 25 controls

the operation of the actuator 26, which modifies the degree of opening of the regulatory body 27 and controls it with the position indicator 28.

With an increase in the sum of expenses, temperatures and density, an increase in the signal at the output of the regulating device occurs. As a result, the opening of the regulator increases, which leads to an increase in the supply of weak white liquor to the cascade

evaporator. Signals entered by the flow rates and temperatures of the combustion products at the inlet and outlet of the cascade evaporator, the flow rates and temperatures of the black and weak white liquors at the inlet of the cascade evaporator and the consumption of black liquor at the outlet of the cascade evaporator significantly outperform the signal in the density of black liquor at the output of the cascade evaporator carry the most complete and reliable information about the character

the process of contact liquor of black liquor in a cascade evaporator under conditions of disturbances caused by changes in the above costs and temperatures. Due to this, the quality control of the black liquor density at the outlet of the cascade evaporator is improved by reducing the duration and maximum dynamic error of the transient conditions.

Claims (1)

Invention Formula Device for controlling a cascade evaporator of a soda generator boiler.