RU2483288C2 - Acid vapour signalling device - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: signalling device has a housing and a reaction vessel filled with the analysed solution. The signalling device also has a sampling device for acid vapour sucked from the space over a processing bath through a hose by a compressor, a normally open valve and an ejector, a pump, a T-branch and a normally closed valve, which feed pure deionised water from a container into the reaction vessel through pipes. The signalling device has a platform-holder for electrodes for measuring temperature and pH of the analysed solution of the obtained electrolyte, the outputs of which are connected to a device for controlling, processing and displaying information on concentration of the acid vapour, which is connected to the pump, compressor and valves. Passing the analysed acid vapour through the solution of deionised water to form the analysed electrolyte solution in the reaction vessel is carried out periodically, and replacement of the deionised water in the reaction vessel with pure deionised water is carried out for each cycle of measuring concentration of acid vapour.

EFFECT: enabling determination of acid vapour with reduced measurement error.

5 cl, 1 dwg

Description

The invention - an acid vapor detector relates to a measurement technique in the field of gas analysis of harmful acid vapors. The detector can be used to measure the concentration of vapors and to signal the vapor content in the working area during chemical processing (etching) of metal products at elevated temperatures of the etching solution.

A known device is a gas analyzer of gaseous sulfur dioxide "Hobbit-T-SO ₂ " [l.1], hydrogen sulfide "Hobbit-TH ₂ SO ₄ " [l.1], carbon monoxide "Hobbit-T-СО" [l.1] designed to control the hazardous gas contamination of industrial premises. The gas analyzer comprises a sensor unit, an indication unit, a power unit, a switching unit. The range of 20-100 mg / m ³ , the relative error of 25%. Light and sound alarm.

Also known gas analyzer "ANAKAT-7654" company "Analit-instrument" [l.2].

The known device "Ecotest-2000" is a liquid ionomer for 16 ions, including the concentration of the ion Cl ^- , NO ₂ ^- , SO ₄ ^-2 , CO ₃ ^-2 . The disadvantage is that it measures in a solution in which the concentration of chlorine ion, sulfur, carbon, and not a gas-air mixture, and not acid vapor, is determined. Measuring range 10 ^-5 -10 ^-1 mol / dm ³ ; pH>1; t _medium - 45-80 ° C [l.3].

The Ecotest-2000 device contains a housing, a holder platform for electrodes, hoses; the reaction vessel into which the solution is poured, incl. acid solution, a selective electrode for a quota ion, measured in the inner space of the reaction vessel, electrical connection of the electrode with the processing device and displaying the measurement result are placed in the vessel. To ensure the correctness of the pH measurement results, care and maintenance of the electrodes should be provided, integrity and mechanical defects of the glass membrane should be checked, whether the reference electrolyte of the electrode is in order, the electrode is dirty, the electrode should be washed, drained, and the influence of CO ₂ gas, which is always located in the environment, whether the electrical contacts of the electrode connectors and the information processing device are dry. The operation of the device is difficult.

Also known are pH-meters / ionometers "Ta-Ion", "Ethan" of the company "NPP" Tomanalit "[l.4] and analyzers of the company" Testo AG "," Testo 205 "," Testo 206 "," Testo 230 " , "Testo 325-350" [l.5] for solutions.

Known gas analyzer "GANK-4" for the control of harmful substances in the air. It contains a built-in pump, the sensor is optophotometric, either electrochemical or solid electrolytic [l.6].

When the set level is exceeded, an acoustic and light alarm is triggered.

The disadvantage is complicated, bulky, inaccurate, does not provide for the measurement of acid vapor.

Other measuring devices are also known: the ion chromatograph "Staer A" of the company ZAO LOIP [l.7], Tea 4000 of the company Advanced Word wide Technologies [l.8], DEFOR, GSM 800 of the company Sick [l. 9], "Conductivity detector of NPO Himavtomatika" [l.10], "Elan" of the Eco-inteh firm [l.11], ... The disadvantage is the road.

A device for automated analysis of gaseous media [l.14], containing a multi-way valve switch, a reversing pump, a reaction vessel, a detector, characterized in that an aspirator for supplying a gaseous sample is connected to the reaction vessel, through a two-way valve tap into the reaction vessel with an absorption with a solution that is fed through one of the channels of the multi-way switch tap using a reversible pump, the remaining channels of the multi-way switch tap are supply channels reagents and analytical solution to the detector.

A device in which a glass tube filled with granules of polytetrafluoroethylene with a diameter of 2-3 mm is used as a reaction vessel.

A device in which an electrochemical cell is used as a detector.

A known sampling post [l.15], comprising a body panel located in ambient air, on which a sampling system of toxic air impurities is fixed, including a sampling device, pneumatic connection with an element that sets the air flow rate and an air pump, characterized in that the air pump made in the form of an ejector, the discharge pipe of which is connected to the pneumatic network of compressed air, and the suction pipe to the sampling device, while the ejector has an adjustable throttle, installed The specified maximum air flow through the discharge pipe and, accordingly, through the sampling device, and the sampling device is made in the form of a removable removable absorption vessel with a solid sorbent or absorption liquid, selected depending on the type of toxic impurities.

Despite the presence of a wide range of ionometers and gas analyzers, in the technical and patent literature an acid vapor detector, and even more so in the metal processing (etching) production line, is not visible in the MPC range of ~ 1-3 mg / m ³ .

The objective of the invention is to provide an indication of the amount of acid vapor in the atmosphere of the etching units of the metal processing production line in hot baths at a solution temperature of 60-80 ° C. The design includes a sampler — a gas pipeline of atmospheric vapors above the pickling bath, pumping a sampled gas stream through a clean solution of deionized water, dissolving acid vapor, measuring the pH in a solution with a combined measuring electrode of a vessel’s reaction solution, electrical connection of a combined measuring and temperature electrodes with an information processing and display device ion measurement results, auxiliary operations, cleaning the measuring electrode, flushing its pumping and replenishment of the reaction vessel with pure deionized water, removal of gases into the atmosphere.

The device of the detector is presented in figure 1 and contains:

1. A bath with acid at a temperature of 70-80 ° C

2. Acid vapor in the space above the bath

3. Sampler

4. The reaction vessel

5. Platform-holder of electrodes, hoses

6. Combined measuring electrode

7. The solution of acid in the reaction vessel in the device

8. Temperature electrode

9. Pipelines, hoses

10. Tee

11. Valve normally closed

12. The pump

13. Additional vessel (capacity) with deionized water

14. Electric connection of a combined measuring and temperature electrodes with a control device, information processing and display

15. The second valve is normally open

16. Ejector

17. Compressor or compressed air system of the object

18. Pipelines, hoses

19. Computing and display control device

20. The control device

21. Computing device

22. Display device, sound and digital indication

23. Acid vapor detector housing

The signaling device works as follows: over an acid solution, for example, H ₂ SO ₄ , which has a temperature of up to 70-80 ° С, bath 1, acid vapors 2 are released. Gas sampling 3 is introduced into acid vapors 2 and vapors 2 are pumped through the gas pipeline and hoses 9 to the reaction vessel 4, in which the required volume of deionized water 7 is pumped periodically from the measurement cycle. Acid 2 vapors dissolve in pure deionized water 7 and become an electrolyte — an acid solution. In this solution are a combined measuring electrode 6 and a temperature electrode 8. An electrode 6, which reacts to the pH of SO ₄ ^-2 ions, and a solution temperature electrode change the electric potential in circuit 14. Electrodes 6, 8, hoses 9, inlet pairs 2 and outlet , placed on the platform - holder 5, mounted in the housing 23 of the signaling device. Through the hose 9 using a compressor 17 or a line of compressed air, a valve normally open 15, an ejector 16 through pipelines - hoses 18, the vapor is sucked in and the residual atmosphere is released over the etching bath.

The pump 12 from the additional tank 13 in which the deionized water is placed, the latter through a tee 10 and hoses 18 pumps a certain amount of deionized water into the washed reaction vessel 4, with the valve 11 normally closed. The software device 20 provides the following control stages: the deionized water solution is pumped with dissolved gases and merges, sequential double washing of the reaction vessel 4 and the selective electrode 6, 8 and discharge; the volume of the reaction vessel is filled with deionized water; acid vapors are passed through the volume of deionized water and the exhaust gas evacuation; fixed measurement of the concentration of the pH of the solution of the reaction vessel; the measurement result is processed and compared with the set level parameters of concentration in the bath atmosphere. Saturated with vapors of acid 2, deionized water becomes an electrolyte and the measuring electrode 6 and thermoelectrode 8 located in it change the electrical voltages that are transmitted to control unit 20 of device 20-21-22, where the signals are converted to SO ₄ ^-2 , or СО ₃ ^-2 , the signals are then sent to the display devices 21 sound alarm, digital indication 22.

At the end of the measurement and processing stage of information 20-22, a signal is received through which the pumping of vapors through the reaction vessel 7 is stopped, and the valve 11 is opened and through it the electrolyte 7 is drained from the vessel 4.

Then pump 12 is turned on and valve 11 is closed and deionized clean water is again pumped from vessel 13 into vessel 4, which rinses vessel 4, electrodes 6, 8 and then drains water through open valve 11, washing system 12-10-4-11. This operation is repeated twice to thoroughly process the system. After which the cycle is completely repeated.

A compressor with a filter or a compressed air system of an object is used as a source of clean air; an ejector was used as a flow inducer; normally open and normally closed valves are used as valves; a peristaltic pump was used as a pump; vessels made of polyethylene, silicone or glass were used as the reaction vessel and the device for controlling, processing and displaying was the device of OJSC Soyuztsvetmetavtomatika or another similar device Ecotest 2000 of Ekoniks company; The ESK-10603 combined electrode or the Testo company electrode was used as a measuring electrode for alkali.

The proposed device has an inventive step, since a new detector of acid vapor has been developed, which has the selection of vapors from the named space with a hot acid solution and the delivery of vapors into the reaction vessel; organized a cycle of measuring ion potential, including preparation, filling the reaction vessel, flushing the system; a device for controlling, processing and displaying measurement results was developed, communications were made.

The proposed device is new, similar in terms of known technical level.

The proposed device is widely applicable for monitoring and signaling the state of the atmosphere over etching baths in production processes.

Literature

1. Catalog of the company "Informanalitika""TheHobbit" gas analyzers for SO ₂ , H ₂ S, CO ₂ .

2. Catalog of the company "Analitpribor", gas analyzer "Ankat".

3. Catalog of the company "ECONIX", 2010, "Ecotest-2000".

4. The catalog of the company LLC NPP "Tomanalit", "TA-Ion", "Ethan", 2010

5. Catalog of the company "TestoAG, Testo-240", 2011

6. Catalog of the company GANK-4 Gas Analyzer, 2009

7. Catalog of the company ZAO LOIP, 2008. Ion chromatograph Stayer A

8. Catalog of the company "Advanced Word wide Technologies", "Tea 4000", 2011

9. Catalog of the company "Sick", "Defor", "GSM 800".

10. Catalog of the company NPO Himavtomatika "Conductometric detector", 2011

11. Catalog of the company "Ecointech", "Elan".

12. Catalog of the company "Gasmet", "Sem".

13. The catalog of the company "EnvironSA".

14. RF patent for utility model No. 59248 G01 No. 1/00, BI No. 34, 12/10/06.

15. RF patent for utility model No. 34739 G01 No. 1/2, BI 10.12.03.

Claims (5)

1. An acid vapor detector comprising a housing and a reaction vessel filled with an analyzed solution, characterized in that it contains a sample of acid vapor sucked out of the space above the production bath through hoses by means of a compressor, a normally open valve and an ejector; a pump, a tee, and a normally closed valve that supply pure deionized water from the tank to the reaction vessel through pipelines; an electrode holder platform for measuring the temperature and pH of the analyzed solution of the obtained electrolyte, the outputs of which are connected to a control device for processing and displaying information on the concentration of acid vapor connected to a pump, compressor and valves, while passing the analyzed acid vapor through a solution of deionized water to form the analyzed electrolyte solution in the reaction vessel is carried out periodically, and the change of deionized water in the reaction vessel to a clean Xia for each cycle of measuring the concentration of acid vapors. 2. The signaling device according to claim 1, characterized in that the control device is designed as a software controlling the cycle time of the pump, valves and compressor; the acid sampler is designed in such a way that it carries out a periodic batch of time the collection of acid vapor over the production bath etching; said software device provides subsequent purging of acid vapor through a volume of deionized water in the reaction vessel, in which acid vapor is dissolved in the measurement cycle, the remaining atmospheric vapor being removed through hoses by means of a compressor, or a compressed air system, an ejector, and a normally open valve; the software device also flushes the reaction space of the vessel and electrodes with clean deionized water from the tank using a pump through a tee with a normally closed valve; subsequent discharge of water from the reaction vessel is carried out with the pump turned off through a tee and a normally open valve; washing of the reaction vessel and electrodes in the cycle is carried out twice, while the space of the reaction vessel is re-filled with clean deionized water, and the pump, compressor and valves are connected to the control unit in such a way that program control is carried out according to the stages of the measurement cycle. 3. The signaling device according to claim 1, characterized in that a combined electrode is used as the measuring electrode. 4. The alarm device according to claim 1, characterized in that the peristaltic pump is used as the pump. 5. The alarm device according to claim 1, characterized in that the material of the reaction vessel is polyethylene, either plastic resistant to aggressive environments, or silicone.

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