SU613298A1 - Device for regulating load of methane steam-oxygen conversion unit - Google Patents

Description

one

The invention relates to devices for regulating the load of an aggregate and can be used in the chemical industry, for example in the steam-oxygen conversion of methane produced in ammonia.

The closest to the invention in its technical essence is a device for controlling the load of a unit for the vapor-oxygen conversion of methane, which contains blocks for stabilizing the flow rates of components, each of which contains series-connected flow sensors, a flow regulator, and an actuator.

However, when the load changes, such a device does not provide the necessary sequence of action of interconnected circuits, which leads to a violation of the technological regime.

The purpose of the invention is to expand the functionality of the device.

The goal is achieved by the fact that the proposed device contains a relay, a reference element, a flow setter, multiplication units and delay elements. The outputs of the first and second delay elements are connected to the first inputs of the relay, the output of the third delay element to the first input of the comparison element. The second inputs of the relay and the reference element are connected to the flow master and the inputs of the delay elements. Output

the comparison element is connected to the third relay inputs, the outputs of which are connected respectively to the flow regulators of the second and third, fourth stabilization units of the component through the first and second, third multiplication units, and the input of the flow regulator of the first unit for stabilizing the consumption of the component to the input of the first unit multiply. The drawing shows the electrical circuit diagram of the device.

The device contains a flow rate setting device 1, component cost stabilization units 2-5, flow controllers 6–9, flow sensors 10–13, executive elements 14–17 relays

18, 19, comparison element 20, multiplication units 21-23, delay elements 24-26. The device works as follows. Flow meter 1 sets the pressure of the task, corresponding to the required load of the vapor-oxygen conversion of methane, directly to the flow controller 6, and through blocks 21–23 multiplying the flow rate regulators 7–9, respectively. When increasing the output signal of the flow meter, it freely passes through the open nozzle of chamber G of relay 18 to flow controller 6 and through multiplication unit 21 to flow regulator 7, and through delay element 26, open nozzle of chamber A of relay 19 and blocks 22,

23 - to the appropriate regulators 8, 9

flow rate with some time delay, adjustable according to the characteristics of the object by the 2G delay element.

When the output setpoint output signal decreases, the comparison element 20 operating in the relay mode processes the output command signal equal to "1, which switches the relays 18 and 19. This allows the output signal of the setpoint 1 to communicate through the delay element 25, the open nozzle of chamber A of the relay 18 directly with the flow regulator 6 and through the multiplication unit 21 with the regulator 7, and with the flow regulators 8, 9 through the open nozzle of the chamber G of the relay 19 and the multiplication units 22, 23.

Thus, when the output of the flow master is decreased, there is a simultaneous change (decrease) in the setting of the controllers 8, 9, and the controllers 6, 7 with a certain delay adjusted by the delay element 25.

The time of the command signal being worked out by the comparison element 20 is set by the adjustable element 24, it must exceed the delay time of the output signal change of the flow master settable from several seconds to one minute with the help of delay elements 25, 26.

Thus, by changing the output signal of the flow master, it is possible to control the input flows of the unit, ensuring the required sequence and the value of their change depending on the sign of the load change.

The use of a device for regulating

the load of the unit by the ion-oxygen conversion of methane or other units that require a similar sequence of effects on the input streams, does not allow the disruption of the technological process when the units are operating in non-stationary modes.

Claims (1)

Invention Formula A device for controlling the load of a vapor-oxygen methane conversion unit containing components cost stabilization units, each of which contains a flow sensor connected in series, a flow regulator and an actuator element, characterized in that, in order to expand the functionality of the device, it contains a relay, a comparison element, a flow master, multipliers and delay elements, the outputs of the first and second delay elements are connected to the first inputs of the relay, the output of the third delay element is connected to the first input of the comparison element, the second inputs of the relay and the comparison element are connected to the flow control device and the inputs of the delay elements, element output Comparison is connected with the third inputs of the relay, the outputs of which are connected respectively with the flow regulators of the second and third, fourth blocks of stabilization of the flow rates of the components through the first and second, third The multiplication unit and the input of the flow regulator of the first flow stabilization unit are connected to the input of the first multiplication unit. four- --7g Yu I1--, f-4-1 / J X7 / g l  J-zr J ir: l j Z1 one/ V 8 lc J 22 J one/ V i. 9 / R (WS.1 rtZIf / I j