SU146102A1 - Device for automatic temperature control in a battery of serially connected autoclaves with continuous liquid supply - Google Patents

Description

Devices are known for automatically controlling the temperature in a battery of serially connected autoclaves with a continuous supply of liquid. These devices contain a simulating computer unit, perceiving thermal parameters with the help of electrothermometers and flow meters, a setting for the heating temperature of the liquid, a corrector and an actuator acting on the flow rate of the coolant.

The disadvantage of these devices is that they cannot provide stable control with the required accuracy, since the delay between the moment of change in steam consumption and the corresponding change in the final temperature is ten minutes. The proposed device differs from the known ones in that it allows to increase control accuracy and eliminate the influence understanding of secondary factors that are not considered by the simulator. This is achieved by the fact that an electrothermometer, measuring an adjustable temperature, is connected to a pulsator, which periodically corrects the coefficients of the simulated equation.

The essence of the proposal is the use of a modeling calculating unit that calculates the heat balance equation of a battery.

The drawing shows a block diagram of the proposed device.

The inlet of the counting unit / includes rheostat sensors 2 and vapor and solution flow meters and an electrothermometer 4 that controls the temperature of the pulp (solution) at the battery inlet, as well as the rheostat 5 to set the required final temperature value. Rheostat sensors are enabled by bridge circuit, the output of which

 146102-2 changes the sign or phase of the voltage if the heat balance equation is not satisfied. In this case, a signal appears at the output of the unit /, which is amplified by the amplifier 6 and controls the actuator 7, which changes the position of the regulator 5 in the heating steam line supplied to the battery 9 of autoclaves. Thus, the steam consumption is changed until the calculated value of the final temperature becomes equal to the predetermined value. In order to improve the accuracy of regulation and avoid the influence of minor factors, automatic correction is introduced into the calculating unit / at a final temperature, measured in one of the last autoclaves of the battery. This correction is carried out by pulses with sufficiently large intervals, given by the pulser 10, which periodically adjusts the coefficients of the simulated equation.

If the autoclave battery is equipped with a separator 11, in which the pulp is separated from the secondary steam by means of a needle valve 12, then automatic pressure control is provided in the battery. The adjustable pressure is measured by a sensitive pressure gauge 75, compared with a predetermined value entered by the unit 14 in the system. The pressure deviation signal obtained in this way, amplified by the amplifier 6, controls the actuator 15, which moves the needle of the needle valve 12 until the battery will not restore the set pressure.

Thus, if the consumption of steam and solution and the temperature of the solution (pulp) at the input of the battery satisfy the equation for the thermal balance of the battery for a given temperature in autoclaves, the output voltage of the device is zero, and if the heat balance equation is not satisfied, then the voltage The unbalance at the output of the device is determined by which way the steam flow must be changed to satisfy the heat balance equation.

Subject invention

A device for automatic temperature control in a battery of serially connected autoclaves with a continuous fluid supply, containing a simulating calculating unit that perceives thermal parameters by using electrothermometers and flow meters, a setting for heating the liquid, a corrector, and an actuator acting on the flow rate of the heat carrier, the fact that, in order to improve the accuracy of regulation and eliminate the influence of secondary factors that are not taken into account The device, an electrothermometer measuring an adjustable temperature, is connected to a pulser that periodically corrects the coefficients of the simulated equation.

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Secondary

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