SU1117279A1 - Method of automatic control of phosphoric acid neutralization process - Google Patents

Abstract

A METHOD FOR AUTOMATIC REGULATING THE PROCESS OF NEUTRALIZING PHOSPHORIC ACID to soda ash on an installation that includes two neutralizers, a reactor, a collector and a filter, by adjusting the ratio of the acid and soda flow rates fed to the first neutralizer, by changing the salt flow and adjusting the pH in a second flow through a minimum of 22 in the flow to reduce the flow in a single element in a minimum of 90 percent of the flow in a single atmosphere, the flow will be reduced and the pH will be lowered in the HL-0, the flow will be reduced and the pH will be lowered by the HLF in the HL of the atmosphere will be lowered in the second flow through the HLF in the second flow through a minimum of 22 flow through a minimum of 22 percent will flow through the flow through the flow will reduce the amount of flow will be reduced and the pH will be left in a single element and should be controlled by a minimum of 90 percent of the flow will reduce the flow and will be controlled by a minimum of 90 percent of the flow will reduce the amount of flow will be reduced and the pH will be left in a single element and will be controlled by a minimum of 90 percent of the flow will reduce the amount of flow will be reduced. characterized in that, in order to improve the quality of the product and reduce the loss of the raw material, while regulating the supply of phosphoric acid in the the first catalyst is introduced by correcting urs (O nu slurry in the collection of the filter.

Description

The invention relates to methods for automatically controlling the process of neutralizing phosphoric acid with soda ash, caustic soda or ammonia and may find application in chemical industry, for example, in the production of phosphorus salts and mineral fertilizers.

There is a known method for automatically controlling the process of neutralizing phosphoric acid by changing the consumption of phosphoric acid depending on the pH of the medium in the reactor while stabilizing the temperature Q.

However, with significant changes in the load on soda ash, reliability is not ensured. the accuracy of the pH measurement in the reactor, which does not allow for the effective regulation of jtponecc and, as a consequence, leads to excessive soda ash and deterioration in the quality of the final product,

The closest to the invention in technical essence and the achieved effect is a method of automatically regulating the process of neutralizing phosphoric acid with soda ash on a plant comprising two neutralizers, a reactor, a collector and a filter, by adjusting the ratio of acid and soda consumption to the first neutralizer, by changing the consumption of soda and adjusting the pH in the second neutralizer by varying the supply of phosphoric acid thereto.

A disadvantage of the known method is the lack of information about the filter capacity, which is important for the implementation of a continuous process. As a result of clogging of the filter fabric in small fractions, the process is destabilized, resulting in an increase in the volume of suspension in collections, which changes the hydrodynamic conditions of aging and can cause the process to stop due to overflowing collections. As a result, the loss of the desired product increases, especially due to a decrease in the degree of washing of the precipitate.

The aim of the invention is to improve the quality of the final product and reduce the loss of raw materials.

The goal is achieved by the fact that according to the method of automatic regulation of the process of neutralizing phosphoric acid with pickled soda on a plant that includes two neutralizers, a reactor, a collector and a filter, by adjusting the ratio of acid and soda consumption to the first 10 neutralizer, changing the soda consumption and adjusting the pH in the second neutralizer by changing the supply of phosphoric acid into it, while regulating the supply of phosphoric acid,

5 you enter corrections into the first neutralizer; according to the level of suspension in the collection container in front of the filter.

 The drawing shows a schematic diagram of the device for carrying out the proposed method,

Phosphoric acid is neutralized with soda ash in neutralizers I and 2 of reactor 3, where soda is fed through line 4, and phosphoric acid is fed through line 5 by pump 6. The resulting suspension is refined using phosphoric acid in reactor 2 from pressure tank 7. The suspension through line 8 is sent to collector 9, from where pump 10 to filter} 1. For feeding soda from the hopper 12, a screw feeder 13 is used, metering its consumption in proportion to the consumption of phosphoric acid. For Soda flow controllers use soda flow sensor 14, soda controller 15 and DC drive 16.

The regulation of the consumption of phosphoric acid in the neutralizer 1 is carried out by the regulator 17 in proportion to

0 the signals from the acid consumption sensor 18 and the suspension level sensor 19 in the collection in front of the filter 1I through the regulator 20. Suspension pH set point

5, the pH regulator 2 is maintained by the regulator 22 in proportion to the signal of the phosphoric acid consumption sensor 23 and the pH sensor 24 of the suspension.

0 The excess acid is drained from the pressure tank 7 into a collection of 25 acids.

The optimum value of phosphoric acid coming from the pressure tank 7 to the neutralizer I of reactor 3 is set. The excess acid is drained from the pressure tank 7 into the acid collector 25. The optimum value of phosphoric acid is maintained by regulator 17 in proportion to the signals from sensor 18 of its flow rate and sensor 19 of the suspension level in collector 9 in front of filter II by means of regulator 20. Depending on the consumption of phosphoric acid measured by sensor 18, in a given ratio of the consumption of soda measured by sensor 4, the regulator 15 by means of an I6 drive of a screw dispenser 13 supports the consumption of soda, which provides the necessary degree of neutralization in the neutralizer I of the reactor 3. I This enters the neutralizer 2 of the reactor 3, where it is mixed with phosphoric acid in an amount necessary for a given value of the sl slurry. The optimum value of the consumption of phosphoric acid is maintained by the regulator 21 by signals proportional to its consumption and the pH of the suspension from sensors 23 and 2A by means of regulator 22. 794 When the filtering ability of filter II changes, for example, its decrease (clogging of filters, deterioration The properties of the suspension are var- ied. Increases the level of susn in the collector 9 before the filter II. The signal proportional to this change comes from the level sensor 19 to the regulator 17, which sets the new optimum value p descent of phosphoric acid fed through line 5 to neutralization into reactor I converter 3. Proportional this acid consumption controller 15 the new value -sets soda consumption. As the throughput of the filter 1I increases, the change in acid consumption goes in reverse. Using the proposed method allows reducing the consumption of phosphoric acid and soda by 10% by reducing their residence time in neutralizers and reducing their content in the sediment, as well as improving the quality of the product and achieving continuity of the neutralization process.

Claims (1)

METHOD FOR AUTOMATIC REGULATION OF THE PHOSPHORIC ACID NEUTRALIZATION PROCESS by soda ash in a plant comprising two neutralizers, a reactor, a collector and a filter, by adjusting the ratio of acid and soda consumption supplied to the first neutralizer, changing the salt flow rate and adjusting the pH value in the second neutralizer by changing phosphoric acid, characterized in that, in order to improve the quality of the product and reduce the loss of feedstock, while regulating the supply of phosphoric acid to the first neut alizator correction introduced by the level in the collection of slurry upstream of the filter. ! 1 1 72 79