DE2951993A1 - Electrolytic cell for sewage disposal - with concentric metal electrodes between plastic base and top cap - Google Patents

Abstract

An electrolytic cell, e.g. for enriching a sewage with a sodium chloride content by a concentration of hypochlorite consists of an inner tube metal anode, surrounded by a concentric outer metal cathode. The two are held together by tie rods between a base plate and a top cap made of insulating material. The sewage enters at the bottom of the annulus, ascends in the annulus, descends in the anode and leaves through a hole in the centre bottom. An automatic degassing device for the hydrogen is arranged at the centre of the top cap and contains a shuttle valve with a plastic ball. This cell combines small overall dimensions with a short retention time. The sewage flow is free from dead end corners and utilizes the entire electrode surface area without dangerous hydrogen accumulations.

Description

Especially for the individual disposal of a

Toilet assembly specific electrolytic cell The invention relates on an electrolysis cell, especially for the enrichment of a sodium chloride containing wastewater with sodium hypochlorite for the purpose of individual disposal of a toilet arrangement, with an anode, a cathode, a waste water inlet, a waste water outlet and electrical connections on the electrodes for connection to a direct current source.

In a known electrolysis cell for this purpose (IJS-PS 3 856 642) are plate-shaped electrodes and mixing stirrers inside a two-chamber container placed in each chamber for fecal disintegration. The sewage inlet is located close to the floor in the corner of a chamber and the waste water outlet is in the lid the other chamber arranged. The mixing stirrer and the flow guide through the Chambers lead to the formation of dead corners in the two chambers and more circling ones Vortices in which the water is not or only insufficiently exchanged. Through this If the electrode surfaces are not used optimally, the electrodes become also not evenly loaded over the entire surface and the residence time spectrum for the waste water passing through the electrolytic cell is large. The known cell possesses also considerable dimensions that allow installation in tight spaces in vehicles can complicate. Load the drive motors for the built-in mixer stirrers in addition, the on-board power supply. In the absence of any Measures for the discharge of the Electrolysis of formed hydrogen dangerous accumulations of hydrogen cannot be ruled out in the known cell.

The invention is based on the object of providing an electrolytic cell, those with relatively small dimensions and a small residence time spectrum a passage of the sewage essentially free of dead corners and eddies with full utilization of the electrode surfaces and uniform surface loading allowed without dangerous accumulations of hydrogen.

The task set is based on the one described at the beginning Type solved in that (a) the vertically arranged walls of the electrolytic cell are essentially formed by the electrodes themselves, (b) one electrode consists of an inner closed wall that encloses an inner cavity, (c) the other electrode from a closed one, the inner wall leaving it consists of a circumferential gap surrounding the outer closed wall, (d) the outer wall each sealed to a bottom part and an upper closure cap is connected, with the bottom part and cap made of an electrically non-conductive Material are formed, (e) the inner wall is also completed by the bottom part is, but communicates with the gap at its upper end, (f) the waste water inlet at the bottom to the gap and the waste water outlet at the bottom to the inner cavity is and (g) an automatically operating degassing device on the closure cap connected.

By using the two electrodes as wall elements of the electrolytic cell are very small dimensions with a relatively large electrode surface achieved. The electrolytic cell therefore requires only a very small amount of installation space. The wastewater introduced into the gap between the two walls from below the previously appropriately entrained solids are essentially filtered out has been, takes a circling upwardly rising flow within the cell, where it is guided over the full height of the electrodes. Therefore none are formed dead corners or circling eddies, so that the water exchange and the exploited Electrode surface are optimal with uniform electrode surface loading. After reaching the upper edge of the inner wall, the water enters the from the inner wall limited cavity and moves down to the waste water outlet. Here, the cross-section of the cavity is expediently dimensioned so that the rate of descent of the wastewater is lower than the rate of rise of the gas bubbles, whereby these can not be carried down, but can rise. That way you can the hydrogen settling upwards through the automatic degassing device from time to time safely removed from the cell.

A particularly simple design is achieved when the electrodes are formed from concentrically arranged cylinder tube sections. The resulting gap has a circular cross-section and over the Height the shape of a hollow cylinder.

When the sewage inlet in a tangential direction in opens into the gap space, a very advantageous spiral shape is formed in the gap space Upward flow out, especially if the electrodes are as indicated above are formed from cylinder tube sections.

The inner wall or the inner cylinder tube section is expedient the anode. This allows the outer wall or the outer cylinder tube step be connected to ground as a cathode, which prevents unintentional contact with the anode excluded are.

A particularly simple design without the need for attachment of breakthroughs etc. on the electrodes themselves arise when the waste water inlet and the waste water outlet are designed as channels molded into the base part. These channels can be used during the manufacture of the base part, for example during injection molding can be molded directly from a suitable plastic. Corresponding the power connection for the anode can also be passed through the bottom part. Even the cavities to be provided for this can be attached during injection molding.

An effective yet uncomplicated degassing device arises when this is in the manner of a ball check valve which is effective in the vertical direction is designed, the ball has a specific weight of <1. Appropriate the degassing device consists essentially of one with the closure cap connectable, hollow cylindrical housing provided with a gas outlet at the top, which is lined with a plastic pipe section in the stroke area of the ball and has a valve seat for the ball at the upper end of the stroke range.

The valve is closed by the ball floating in the wastewater, if no hydrogen accumulation is available. One in the upper However, the volume of hydrogen forming the area of the housing displaces the waste water downwards, whereby the ball releases the valve seat. The hydrogen can now escape, whereby the water pushing in presses the ball bodice against the seat and the valve closes.

A simple and reliable manner is preferred in a Embodiment achieved in that the closure cap and the bottom part at their facing surfaces each with an annular groove for receiving the neighboring one End of the outer wall or the outer cylinder tube section are provided, in which there is a sealing ring, and that the closure cap and the bottom part under restraint of the outer wall or the outer cylinder tube section Tension rods arranged on the circumference or the like are detachably connected to one another. The ring grooves in the cap and bottom part can also be used when shaping these parts made of plastic with molded.

Further details of the invention are given below with reference to a Embodiment explained in more detail.

1 shows a vertical section through an electrolysis cell, 2 shows a partially broken section through the cell along the line II-II in Fig. 1 and Fig. 3 a vertical section through the degassing device.

The one shown in Figs. 1 and 2 in somewhat schematic form The electrolytic cell consists essentially of the anode 1, the cathode 2, the upper one Closure cap 3 and the bottom part 4. The anode 1 and the cathode 2 form the perpendicular arranged inner wall or outer wall of the electrolytic cell and are as Cylinder tube sections arranged concentrically to one another are formed.

On their facing surfaces have the closure cap 3 and the bottom part 4 each have a corresponding annular groove 5 and 6, in which the each adjacent end of the cathode 2 with the help of a sealing ring 7 or 8 intervenes. On a circumferential ring shoulder 9 which is circular in cross section Closure cap 3 sits a Tlalterungsplatte 10, which is approximately the square plan of the bottom part 4 (Fig. 2). Through at the four corners of the bottom part 4 and the mounting plate 10 attached holes, of which from the drawing (Fig. 2) only the bores 11 in the bottom part 4 are visible, tension rods extend 12th

The tension rods 12, which to clarify the representation in FIG. 1 are not shown, but their position is evident from Fig. 2, tension the cathode 2 sealed between the cap 3 and the bottom part 4.

Anode 1 and cathode 2 delimit an annular gap space 13, which with a corresponding annular groove 14 in the bottom part 4 is directly connected. The anode 1 encloses an inner cavity 15, the bottom through the upper surface of the bottom part 4 is completed and is open at the top, so that the interior 16 of the cap open annular gap space 13 over the upper annular surface forming an upper flow edge 17 of the anode 1 is connected to the cavity 15.

The wastewater inlet 18 and the wastewater outlet 19 each close to the bottom part 4 and are expediently formed in one piece with this. Of the The wastewater inlet opens tangentially with its channel formed in the bottom part 4 into the annular groove 14, while the correspondingly molded into the bottom part is angled running channel of the waste water outlet 19 connects centrally to the inner cavity 15. Due to this arrangement, the wastewater supplied via the wastewater inlet 18 increases a spiral upward path through the annular gap space 13, whereby it over the annular surface 17 flows over the anode 1 and drops down in the inner cavity 15 until it eventually emerges from the wastewater outlet.

In the example shown, the anode 1 is through at its lower end attached inwardly facing tabs 20, of which in Fig. 1 for clarity only one is shown, held by screws 21 on the bottom part 4.

While two of the screws 21 are screwed into (not shown) blind holes one of the screws 21 engages in an electrically conductive contact piece 22, to which the power connection 23 for the anode 1 is attached. The contact piece is located in a tube 24 and which is introduced into the bottom part 4 from below is sealed against the inner cavity 15 by a sealing ring 25. The ground connection 26 is attached to the cathode 2.

The hydrogen gas accumulating in the interior 16 of the closure cap 3 occurs via a connector 27 located on the cap 3, the releasable Connection to the degassing device described below with reference to FIG. 3 is provided with an external thread.

The one that works in the manner of a ball check valve Degassing device is shown in Fig. 3 on a compared to Figs. 1 and 2 larger scale.

It consists essentially of a hollow cylindrical generally housing designated by 28, a gas outlet part designated generally by 29 and a top nut 30 connected to the bottom of the housing for connection with the nozzle 27 of the cap 3.

The gas outlet part 29 has a downwardly facing frustoconical Valve seat surface 31, which seals the electrolytic cell with the valve ball 32 cooperates when it is completely filled with wastewater, which the on the water floating ball 32 presses against the valve seat surface 31. Narrowed at 33 the housing 28 so that the ball 32 does not come down from the degassing device can fall out if there is no waste water in the degassing device. In the stroke area of the ball 32, which can be made of polypropylene, for example can, the housing 28 has a lining in the form of a plastic pipe section 34.

In Fig. 3, the ball 32 is shown in its lower rest position. Operational of the electrolytic cell, however, the ball 32 is sealed against by the water pressure the valve seat surface 31 is applied until in the interior of the housing 28 or in the Interior of the cap 3 has accumulated a volume of hydrogen gas, which to displace the wastewater downwards. The ball floating on the sewage there then the valve seat surface 31 is free until the gas over the gas outlet part 29 has escaped and the water, which is now again pushing in, the ball 32 again applied to the valve seat surface 31.

This process wbalerholt automatically according to the respective Hydrogen buildup.

The anode 1 can be made of titanium or a similar metal and is with an electrically conductive electrocatalytically active coating provided, for example with platinum. In contrast, the cathode 2 can be made of a rustproof and acid-proof steel. The bottom part 4 and the cap 3 can be injection molded from polyvinyl chloride, for example.

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Claims (9)

Claims electrolysis cell, especially for enrichment of a wastewater containing sodium chloride with sodium hypochlorite for individual disposal a toilet arrangement, with an anode, a cathode, a waste water inlet, a waste water outlet and electrical connections on the electrodes for connection with a direct current source, characterized in that (a) the vertically arranged Walls of the electrolytic cell are essentially formed by the electrodes (1,2) themselves are, (b) one electrode (1) consists of an inner closed wall, which encloses an inner cavity (15), (c) the other electrode (2) from a closed, the inner wall leaving a circumferential Gap space (13) surrounding outer closed wall consists, (d) the outer wall (electrode 2) each sealed (8, 7) on a bottom part (4) and an upper closure cap (3) is connected, with the bottom part (4) and sealing cap (3) from one electrical unit non-conductive material are formed, (e) also the inner wall (electrode 1) is completed by the bottom part (4), but with at its upper end (17) the gap (13) communicates, (f) the waste water inlet (18) at the bottom of the gap (13) and the waste water outlet (19) connected at the bottom to the inner cavity (15) is, and (g) on the cap (3) an automatically operating degassing device (28 to 34) is connected. 2. Electrolytic cell according to claim 1, characterized in that the Electrodes (1, 2) made of cylinder tube sections arranged concentrically to one another are formed. 3. Electrolytic cell according to claims 1 or 2, characterized in that that the waste water inlet (18) opens into the gap (13) in a tangential direction. 4. Electrolysis cell according to one of claims 1 to 3, characterized in that that the inner wall or the inner cylinder tube section is the anode (1). 5. electrolytic cell according to claims 1 to 4, characterized in that that the wastewater inlet (18) and the wastewater outlet (19) than in the bottom part (4) molded Channels are formed. 6. electrolytic cell according to claims 1 to 5, characterized in that that the power connection (23) for the anode (1) is passed through the bottom part (4). 7. Ekktrolysezelle according to claim 1, characterized in that the Degassing device (28 to 34) in the manner of an effective in the vertical direction Ball check valve is formed, the ball (32) has a specific weight of 41 has. 8. electrolytic cell according to claims 1 and 7, characterized in that that the degassing device essentially consists of one with the closure cap (3) connectable, hollow-cylindrical housing provided with a gas outlet (29) at the top (28) consists of a plastic pipe section in the stroke area of the ball (32) (34) is lined and at the upper end of the stroke area a valve seat (31) for the ball (32). 9. Electrolysis cell according to claims 1 to 8, characterized in that that the closure cap (3) and the bottom part (4) on their mutually facing surfaces each with an annular groove (5, 6) for receiving the adjacent end of the outer Wall or the outer cylinder tube section (electrode 2) are provided in which is a sealing ring (7, 8), and that the cap (3) and the bottom part (4) with restraint of the outer wall or the outer one The cylinder tube section is detachable by tension rods or the like (12) arranged on the circumference are connected to each other.