SU1000710A1 - Apparatus for automatic control of drying process in spray drier - Google Patents

Description

The invention relates to the production of ceramic products and can be used in all sectors of the economy where suspensions are dried in spray dryers.

Known devices and systems for automatically controlling the drying process in spray dryers, where the drying quality is controlled by changing the flow rate of the coolant or material depending on the temperature or humidity of the finished product at the outlet of the spray dryer. These devices contain measuring instruments for the temperature of the medium., Material consumption, humidity of the finished product. Based on the signals from these sensors, the required value of the coolant flow is calculated, which is set by the executive body, which changes the gas supply £ 1).

However, due to the lack of slip flow control sensors, this device does not provide the required control accuracy.

Closest to the proposed technical essence is a device for automatically controlling the drying process in a spray.

a dryer containing sensors for exhaust gas temperature and slip flow rate connected to the input of the coolant supply regulator, and f2D coolant supply regulator.

The known device does not provide a change in the thermal state of the dryer at the required speed, since a change in the flow rate of the coolant leads to a change in temperature in the dryer at an insignificant speed. This leads to the fact that the press powder does not have time to dry and sticks to the walls of the tower, and then falls off and heaps the outlet of the dryer.

The purpose of the invention is to improve the accuracy of regulation.

This goal is achieved in that a device for automatically controlling the drying process in a spray dryer, containing exhaust gas temperature and slurry flow sensors connected to the input of the regulator. The coolant supply and a coolant supply regulating element further comprises a slip feed regulator with a regulating body, an integrator, a comparator, a setpoint for the temperature of the spent coolant, a slip pressure sensor and two relay elements. one, moreover, the temperature sensor of the exhaust gases, the temperature setpoint of the waste heat carrier and one of the outputs of the integrator are connected to the comparing device, one of the outputs of which is connected to the input od.

, the output to is connected to the integrator, a sub-link is connected to one of the inputs of the slurry regulator, the pressure sensor went to the other input ³ · and the output of which is connected to the relay of the relay elements ₍ supply of kera, the regulating body of the slip supply, another output comparing the device 15 is connected to one of the inputs of the second relay element, the other input of which is connected to the flow regulator • of the coolant, and the output - to the regulator of the coolant supply

The drawing shows a block diagram of the proposed device.

The automatic control system comprises a control object, a spray dryer 1, a receiver 2, an exhaust gas pipe 3, an exhaust gas temperature sensor 4 installed in the exhaust gas pipe 3, a slip flow sensor 5, a coolant supply regulator 6, a second relay element 7, a supply regulator 8 coolant, a comparing device 9, a setpoint 10 for the temperature of the spent coolant, the first relay element 11, an integrator 12, a slurry feed regulator 13, a slurry feed regulator 14, a sensor 15 the pressure of the slip installed on the receiver 2. Sensors 4 and 5 are connected to the inputs of the regulator 6, which is connected through the second relay element 7 to the regulatory body 8.

To the inputs of the comparator

9, designed to select the operating modes of the device for automatic control of the drying process, the output of the sensor 4 and the setter are connected

10. The outputs of the comparing device are connected to the inputs of the relay elements 7 and 11, which operate in the switching mode and respectively disconnect or connect the regulator 6 through the second relay element 7 to the regulating body 8, if the signal from the sensor 4 is less than the total signal a setter 10 and an integrator 12 by a predetermined value, or connected via a first relay element 11 to an integrato input. RA 12 DC voltage to change the signal from the output of the integrator 12, if the total signal from the setter 10 and the integrator 12 is less than the signal from the sensor 4.

The output of the second relay element is connected to the regulatory body 8, the output of the first relay element 11 is jav7 a and connected to the input of the integrator 12, which is set by the pressure regulator of the slot. The outputs of the integrator 12 are connected to one of the inputs of the comparison device 9 and to the input of the regulator 13, the second input of which is connected to the sensor 15, and the output to the control device 14.

The regulation of the drying process is as follows.

If the temperature of the exhaust gases is less than the total value from the setter 10, the integrator 12 and the set value of the dead zone, the comparative device 9, the device stabilizes the pressure of the slip, the value of which is equal to the output value of the integrator 12, and stabilizes the temperature of the exhaust gases with correction for the consumption of the slip . In this case, the comparison device 9 closes the second relay element 7 and connects the regulator 6 to the regulating body 8, and also opens the first relay element 11 and thus disconnects the input voltage from the integrator 12.

If the temperature of the exhaust gases is greater than the total value of the signals from the setter 10, the integrator 12 and the deadband value, then the comparative device 9 turns off the second relay element 7, thereby the flow rate remains constant, and turns on the first relay element 11. the input of the integrator 12 receives the input voltage, which leads to the fact that the task at the input of the regulator 13 is changed so that the temperature of the exhaust gases decreases.

Thus, the use of a slurry feed controller for large deviations of the temperature of the exhaust gases provides a faster change in the thermal regime in the dryer than when the flow rate of the coolant changes, and therefore, during transitional conditions, the moisture content of the press powder will be more stable and the sticking of the crude press powder to the walls is eliminated towers.

Claims (2)

1. Baumstein I.P., et al. Automation of drying processes in spray dryers. M., Himi, 1970, with. 140, fig. 49. 2. Authors certificate of the USSR 258616, cl. F 26 B 25/22, 1966. /