SU431146A1 - METHOD OF AUTOMATIC CONTROL OF THE PROCESS OF NITROAMMOPHOS RECEIVING - Google Patents

Description

one

The invention relates to methods for automatically controlling neutralization processes and can be used in the chemical industry.

A known method of automatically controlling the process of obtaining nitroammophos by regulating the temperatures of phosphoric acid and ammonia, the consumption of heating steam, and the stabilization of the temperature in the neutralization zone.

In order to optimize the process, the temperature in the neutralization zone is maintained depending on the crystallization time of molten nitroammophos in the granulation tower and the temperature of phosphoric acid is adjusted for the acid concentration.

The drawing shows a diagram of the implementation of the method.

The method of drying is as follows.

Phosphoric acid and ammonia enter the reaction zone of the apparatus 1, and the melt ammonium nitrate apparatus enters the mixing zone.

The heating steam is supplied to the heaters 2 and 3, respectively, of phosphoric acid and ammonia and the internal heat exchanger 4 of the neutralization apparatus.

At the input of the computing device 5 receives the parameters characterizing the crystallization time. From the output of the device 5, a signal proportional to the value of the optimization criterion — the crystallization time of the melt — enters the computing device 6. From the output of the device 6, a signal proportional to the value of the temperature task in the neutralization zone is sent as a task to the control unit 7, where signal proportional to the current temperature in the zone

reaction, from sensor 8 (sensor is installed in the zone of maximum temperature).

From the output of the computing device 5, a signal proportional to a predetermined value of the crystallization temperature of the melt, nitroammophos, is supplied as a task to the control unit 9. A signal proportional to the current value of the crystallization temperature from the sensor 10 through the diskregno-analogue converter 11 enters

As a corrective unit 7, associated with the computing device 12, in the latter, tasks for the phosphoric acid and ammonia temperature controllers, the heating steam consumption to the internal heat exchanger of the apparatus, are adjusted depending on the effect of each influence on the corresponding channel.

From the output of the computing device 12, the signal is proportional to the value of the task

on ammonia temperature, comes in quality