PL101570B1 - A DEVICE FOR CONTINOUS QUALITATIVE DETERMINATION OF CHEMICAL CONTAMINATIONS IN LIQUIDS - Google Patents

Description

The subject of the invention is a device for continuous qualitative determination of chemical pollutants by colorimetric methods in liquids with mechanical suspensions.

Known methods and devices for the determination of chemical contaminants in liquids by methods continuous flow colorimeters consist, inter alia, in the fact that the tested liquid first cleans he breaks mechanical impurities with the help of a semi-permeable membrane and then divides the purified liquid into very small samples by mixing them together with the appropriate amount of reagents. So prepared samples Separated by air bubbles, they are pushed to the colorimeter, where the measurement takes place. Other a known device according to Polish patent description No. 63615 is equipped with a sampling system, consisting of a movable swimmer connected to the ejector via a static filter. System the dosing device of this device consists of a feeding nozzle connected by a flexible hose to the tank, performing vertical movement under the action of a lever mechanically driven by the cams of the control shaft. Shaft this activates the siphon device and the mixing device, and after an appropriate time it also starts siphon connection for measuring vessel, colorimetric analyzer system.

In the methods described, the biggest problems in the continuous determination of chemical compounds in liquids contaminated with mechanical suspensions create systems for continuous removal of suspensions, reduction and synchronization of the flow of doses of the tested liquid with doses of reagents.

In the solution according to the invention, a continuous collection of the tested liquid was used, the flow of which was carried out the flow is reduced and cleared of suspended solids using a system consisting of two tubes and a vessel, the bottoms of which are equipped with discharge lines for the discharge of excess liquid and the removal of sludge at maintaining the consistency of hydrostatic pressure and outflow of the sample of the liquid prepared for analysis, to which then chemical reagents are dosed. The test sample is analyzed during the flow with the help of known colorimetric methods. Consistency in dosing reagents was achieved by using them static pressure in pressure tanks situated higher than the rest installation 2 101 570 To eliminate the influence of the filling height of the tanks on the amount of reagents, outflow was used by means of siphon tubes, mounted on floats, ended with nozzles with constant cross-section, the effective outflow surfaces of which are adapted to the quantitative flow of the sample fluid by selecting the diameter of the wire passing through the nozzle opening.

The device according to the invention is shown in the drawing which shows the reduction system, dosing and purification of the test liquid stream, chemical reagent dosing system with colorimeter- The device consists of a conduit 1 feeding the tested liquid through a tube 2 to the vessel 3 constituting a sedimentation chamber with a strainer 4, which is connected by a supply conduit 5 passing the filtered liquid through the hose 6 to the mixing line 17 under the funnel 7. In the upper and lower parts of the vessel 3 there are lines 8 and 9 draining excess liquid with sediment. Wires 10 Together with the fittings and tap 22, clean water rinses the device. The device also has Reagent pressure vessels 11, in which on the frames 13 there are floats 12 with attached with 14 siphon tubes, ending with 15 filters at the top and 16 with dosing nozzles at the bottom with inserted wires. The colorometric part of the device consists of a funnel 7 to which the line reagents are dosed mixing valve 17 connected to the measuring cell 18 and the drain line 18. For color comparisons A reference cell 20 is used, which together with the measuring cell 18 is an illuminated finger tube 21.

The principle of operation of the device is as follows. The test effluent is collected continuously and fed via taper 2 with a specific cross-section to vessel 3, where sedimentation of larger contaminant particles occurs red. Then a part of the tested effluent goes through the strainer 4 and the tapping 6 to the conduit 17. From the bottom of the sedimentation vessel 3, excess waste water with sediment is drained it is continuously in line 9. The remaining excess of the tested effluent flows out through line 8. Dosing Chemical reagents are carried out from the vessels placed above the rest of the installation. Run off along with dosed reagents flows through the mixing tube 17 to the measuring cuvette 18, where its color is compared with the color of the standard solution with a threshold concentration of contamination contained in an identical cuvette 20.

The comparison of the intensity of the colors in both cuvettes makes it possible to determine whether there was an overrun permissible concentration.

Claims (3)

Patent claims 1. Device for continuous qualitative determination of chemical contaminants in liquids, having a colorimeter, characterized in that it has a sedimentation vessel (3) with a filter (4) equipped with inlet pipes (Di-drain (5), on which pipes (2) are installed and 6) and a collective mixing line (17) with a funnel (7) at the top, to which chemical reagents from pressure vessels (11) equipped with a rack (13) and floats (12) with levers tubes (14) attached to them are dosed equipped with intake filters (15) and finally with dosing nozzles (16). 2. Device according to claim 3. The method of claim 1, characterized in that the conductors (1 and 5) have cores (2 and 6). ' 3. Device according to claim A method according to claim 1, characterized in that the siphon tubes (14) of the chemical reagent dosing system are provided with floats (12) which place the draw-off filters (15) of the siphon pipes (14) always under the mirror of the dosed chemical reagent, and the dosing nozzles (16) have in their openings cotter wires, the diameter of which regulates the cross sections of the nozzles openings and thus the intensity of the outflow of chemical agents. 101 570 14 1312 11 8 5 6