SU922085A1 - Apparatus for neutralizing waste detergent solutions - Google Patents

Description

(5) INSTALLATION FOR NEUTRALIZATION OF THE FINISHED WASHING SOLUTIONS

I

The invention relates to the dairy industry, namely to equipment for the neutralization of treated detergent solutions.

Currently, dairy plants, according to the project of HyproMolProm, are equipped with facilities for neutralizing waste detergent solutions containing a wastewater collector, a container for a neutralizing agent installed above the collector and a device for determining the concentration of hydrogen ions in solutions.

The known installation is located in a separate building with an underground reinforced concrete collection, into which the spent solutions flow. The collection contains perforated pipes for moving the liquid with compressed air during neutralization.

After the process of neutralization of the spent solutions is completed, they are discharged into the sewage system or to the treatment plant.

The disadvantage of such an installation is its high cost due to the costly capital facilities, the unreliability and impossibility of carrying out the neutralization and washing processes at the same time.

A device for the treatment of wastewater, in particular cyanogenic, contains a flow reactor with a cyanide concentration sensor and

10 system of automatic regulation of wastewater treatment process: LOW. However, this device is not intended to neutralize spent cleaning solutions that have a constant concentration of hydrogen ions.

The closest in technical essence to the proposed is

Claims (2)

30 installation for neutralizing waste liquids, containing a storage tank and an injector rectifier with a discharge line, a pipeline for discharging liquid from the collector to the neutralizer reactor, a feed pump, a device for feeding reagents to the reactor-neutral mash and an automation system. The latter includes a control system with sensors of the upper and lower levels of the storage tank and valves for controlling the flow of the treated fluid installed on the pipeline to return liquid from the reactor to the storage tank against the violation of the liquid treatment process, and the control loop of the pH of the liquid to be neutralized. which includes concentrators with pH sensors installed in the neutralizer reactor and storage tank, a control valve mounted on the pipeline reagent cottages, and a set of automation tool. Spent dairy detergent solutions are specific, as they have a constantly varying concentration of hydrogen ions (acid washing alternates with alkali washing) 2. However, it is not possible to handle such solutions on a known installation. Moreover, this installation is complex in design and expensive. The purpose of the invention is to increase the reliability of the plant during the neutralization of spent cleaning solutions and simplify its design. This goal is achieved by the fact that in an installation containing a storage tank and a neutralizing reactor with a tapping line, connected by a pipeline for supplying the liquid to be treated, equipped with a pump, a unit for feeding reactants to the reactor; a traptizer, a control unit with sensors of the upper and lower levels of the liquid in the storage tank associated with the valves for supplying the treated liquid and the regulation circuit of the pH value of the liquid to be neutralized, containing a concentration meter with a pH sensor installed in the reactor — not centralizers, and reactant supply valve according to the invention the treated liquid supply conduit connected to the outlet line-boiling reactor keytralizatora connecting line equipped with a shutoff valve. the reagent supply unit contains measuring tanks for concentrated solutions of alkali and acid; and the control system additionally contains an average liquid level sensor in the storage tank, lower and upper liquid level sensors in the neutralizer reactor and in the measuring tanks, while the control circuit of the pH value of the neutralized liquid additionally contains interconnected supply valve of another reagent, the comparison unit with the pH value setting unit and a pulse generator connected to the dosing pump or valve supplying the appropriate reagent to the neutralizing reactor. The above distinctive features of the installation provide batch processing of the liquid with the supply of one or another reagent (depending on the pH meter readings in the neutralizer reactor) with a pulsating flow, which is carried out at the same time with the equipment washing. These functional properties of the plant allowed us to process the waste detergent solutions of dairy enterprises and simplify its design. V To its positive properties should also include the exclusion of the possibility of entering into the sewer system (in the sludge system) incompletely neutralized detergent solutions. FIG. 1 schematically shows the proposed installation with a control system; in fig. 2 is a block diagram of the circuit for automatically adjusting the pH of the liquid to be neutralized. The installation for neutralizing waste liquids, namely, cleaning solutions used for cleaning equipment and pipelines in dairy plants, consists of storage tank 1 (Fig. 1), reactor-neutralizer 2, reagent supply unit to reactor-neutralizer, including measuring tanks 3 and pump 5, the piping system, in turn, consisting of the pipeline 6 supplying the treated liquid from the storage tank 1 to the neutralizer reactor 2, the discharge line 7 and the connecting pipe 8. 59 Installation for neutralization The used liquids are equipped with an automation system, which includes a control unit and a circuit for regulating the concentration of hydrogen ions of a neutralized liquid (its pH values) The control unit includes (Fig. 1) sensors 9, 10 and 11, respectively, upper, lower and average levels of waste liquid storage tank 1, sensors 12, 13 of the upper and lower levels of the reactor-neutralizer 2, sensors 1 and 15, as well as 16 and 17 of the upper and lower levels of the measuring device 3 hours C, respectively, valves 18 on the supply pipe 6, 19 on the connecting pipe Figures 8 and 20 on line 7 and control unit 21 According to the invention, instead of valves 18 and 19, a switching valve 22 may be included in the control system (Fig. 1 dotted line). The pH control circuit of the neutralized liquid consists of a concentrator 23 with a pH sensor 2 installed in the reactor neutralizer, valves or metering pumps 25 and 26 installed on pipelines 27 and 28 connecting the respective measuring tanks to the reactor neutralizer. The control unit for adjusting the pH value of the liquid to be neutralized also includes the Comparison unit 29, the sensor 30 and the generator 31 of the pulse signals. The installation works as follows. ;, - s to c. During sanitization of equipment, spent cleaning solutions enter storage tank. As soon as the liquid rises to the level of sensor 10, valve 18 is opened by its signal 18. The pump 5 is turned on. The liquid flows through line 6 to the neutralizer reactor 2. When the latter is filled up, the sensor 12 of the upper level gives a signal by which the valve 18 closes and the valve 19 opens (or the valve 22 is switched). The fluid circulates in a loop: reactor-neutralizer 2, discharge line 7. connecting pipe 8, valve 18, valve 19 (or connecting pipe 32 and switching valve 22), pump 5 and pipe 6. 5 At the same time, the signal from the concentrator 23 turns on the corresponding valve 25 or 26 (or the corresponding pump) and a reagent supply pulse from the corresponding measuring device occurs. The selection of the necessary reagent (alkali or acid) is carried out by block 29 (Fig. 2) by comparing from the measured pH value of the liquid in the reactor-neutralizer 2 with the predetermined unit 30. The pulse duration is adjusted automatically by the generator 31. pulses depending on the magnitude of the error ( pH deviation from a given value). When the pH reaches 7.0, the pump 5 stops, the valve on the discharge line opens. As soon as the level of the neutralized liquid reaches the sensor 13 of the lower level of the neutralizing reactor, the valve in the discharge line 7 closes and the cycle starts again. Thus, in the proposed installation, the neutralization of the spent cleaning solutions occurs automatically. The installation itself is simple, compact, reliable to maintain. Neutralization of wastewater in this case, spent cleaning solutions occurs quickly and clearly. Installations of this type will find wide application in urban dairy plants (according to standard designs at 160 and 230 t / cm), cheese factories (according to standard designs at 2.5, 5.0 and 10.0. T / cm), as well as in enterprises built on individual projects as in our country; and -p, Yul and in Poland and Mongolia. Claims of the invention Installation for neutralization of spent washing solutions, containing a storage tank and a neutralizer reactor with a discharge line, connected by a pipeline for supplying the treated liquid, equipped with a pump, a unit for supplying reagents to the neutralizer reactor, a control unit with sensors of the upper and lower levels of the liquid to be treated associated with valves for supplying the treated liquid and a circuit for adjusting the pH value of the neutralized liquid, containing a final nitrometer with yes A pH value set in the neutralization reactor and a reagent supply valve, characterized in that, in order to increase the reliability of the installation and simplify its design, the pipeline for supplying the treated liquid is connected to the outlet line of the neutralizing reactor with a separation pipe, equipped with a shut-off valve, the unit the supply of reagents contains measuring tanks for concentrated solutions of alkali and acid, and the control system additionally contains a sensor of the average level of liquid in the storage tank, dates 9 5 lower and upper levels of the liquid in the neutralizer ratator and in the measuring tanks, while the control circuit of the pH value of the liquid to be neutralized additionally contains interconnected supply valve of another reagent, a comparison unit with a set of pH values and a pulse generator connected to the metering pump or valve supplying the appropriate reagent to the neutralizing reactor. I Sources of information taken into account in the examination of the certificate of the USSR № 652122, cl. C 02 C 5/02, 1973. “1: s opCKoe USSR certificate № 684019, cl. C 02 C 5/02, 1971. fl / l, 2