SU1017685A1 - Device for automatically controlling process of purification of acid phosphorinaceous effluents - Google Patents

Abstract

DEVICE FOR AUTOMATIC REGULATION OF CLEANING OF PURIFICATION OF ACID OF PHOSPHORUS CONTAINING WASTE WATER, containing a regulator of stabilization: a connection connected to the pH sensor of the water of the valuable water and the executive program of supplying the reagent to the reactor, it is mixed with a mixture of set water. It also contains sensors for pH, electrical conductivity and flow of purified water, a multiplier and two compensators, while sensors for pH and electrical conductivity of the purified water are connected to the inputs of the multiplier, the output of which is through the first. The compensator is connected to a stabilization regulator connected via a second compensator with a sensor for the flow rate of the water to be purified. 5 g Jr (ED LJ is asporiferous and wastewater

Description

The invention relates to the field of regulation of the purification process of acidic phosphorus-containing wastewater and can be used at enterprises of the chemical and metallurgical industries.

The closest in technical essence and the achieved effect to the invention is a device for automatically controlling the purification process of acidic phosphorus-containing wastewater, containing a stabilization regulator associated with the pH sensor of the purified water and an executive mechanism for supplying the reagent to the reactor [1].

The disadvantage of this device is that the regulation of the output parameter occurs only after it deviates from the set value. This leads to frequent breakthrough of uncontaminated contaminants. In addition, phosphorus-containing acidic wastewater from chemical industry enterprises, in particular the production of ammophos, are subject to frequent and sharp fluctuations in both. acidity, and the content of phosphorus-containing salts in the treated waters. It also leads to frequent deviations of the output parameter from the set value, and reduces the quality of water treatment.

¹ The purpose of the invention is improving the quality of wastewater treatment.

This goal is achieved in that the device®, containing a stabilization regulator connected with a pH sensor of purified water and an actuator for supplying the reagent to the reactor, additionally contains pH sensors of conductivity and flow rate of treated water, a multiplier and two compensators, while pH and conductivity sensors of treated water subclub allows you to significantly reduce the fluctuation of the output parameter from the effects of the above disturbances.

The drawing shows a schematic diagram of the device.

The device contains a mixer reactor 1, a stabilization regulator 2 of the output parameter, an actuator 3, sensors 4-7 of the pH of the purified water, the conductivity and pH of the phosphorus-containing purified water, a multiplier of 8 signals from bi 7 sensors, compensators 9 and 10.

The device operates as follows.

Phosphorus-containing wastewater enters the reactor-mixer 1, the reagent - lime milk for water purification - is also fed there. The pH value of purified water is measured by sensor 4, the signal from which is fed to stabilization regulator 2. Regulator 2, by acting on actuator 3, changes 25 the reagent supply depending on the deviation of the pH of the purified water from the 'set value.

Consumption of phosphorus-containing waste

v.ody measuring sensor 5 and _n zna_ for sign correction signal through a compensator 10 also poda-. it is in the stabilization regulator

The conductivity and pH of the phosphorus-containing wastewater are measured by sensors b and 7. The signals from these sensors are multiplied in the multiplier 8, and the received signal through the compensator · 9 is fed to the input of the stabilization regulator 2. Compensators 9 and 10 are used to provide forward correcting signals to the stabilization regulator 2 from the influence of perturbations on changes in flow rate, electrical conductivity and pH of wastewater from the cell. to the inputs of the multiplier, the output of which through the first compensator is connected to the stabilization regulator, connected through the second compensator to the flow sensor of the purified water. Studies show that the content of phosphorus and phosphorus salts in wastewater is more correlated;

_with electrical conductivity of acidic runoff (Ζ = 0.72) than with pH (Ζ = 00.51), and the contents of H ^ BOD and HjSiF ^ are more correlated with the pH of the waste Water. The degree of water purification is more dependent on the product of electrical conductivity and R.N. than on the sum of these parameters. Therefore, the correction of the reagent consumption by the value of the product of pH and the conductivity of wastewater, as well as by the flow rate of treated water, taking into account the inertia and delay of these channels. This allows to minimize the deviation of the output parameter (in our case, the pH of the purified water) from the set value.

The use of the present invention in the purification of acidic phosphorus-containing wastewater in the production of ammophos can dramatically reduce the number of breakthroughs of contaminants into the treated water, improve quality due to prompt and accurate regulation and reduce the consumption of neutralizing reagent by 12.5%. The economic effect of the introduction of the invention in one workshop for the neutralization of phosphorus-containing wastewater. is 35 thousand rubles. in year.

ВНИИПИ Order 3470/26 Circulation 941 Subscription

Branch of the PPP Patent, Uzhhorod, ul.Proektnaya,

Claims (1)

DEVICE FOR AUTOMATIC REGULATION OF THE PROCESS OF PURIFICATION OF ACID PHOSPHORUS CONTAINING WASTE WATER containing a setting regulator. · Associated with a pH sensor of purified water and an actuator for supplying the reagent to the reactor, which requires that, in order to improve the quality of water treatment, it additionally contains pH and conductivity sensors and the flow rate of the treated water, a multiplier and two compensators, while the pH and conductivity sensors of the treated water are connected to the inputs of the multiplier, the output of which through the first compensator is connected to the stabilization regulator connected through the second compensator to the flow sensor, eyes aemoy water. I