JPS5940233B2 - Electrode for electrolysis - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an electrode for electrolysis, and more particularly to an electrode for electrolysis for electrolyzing seawater, saline, or other electrolyte solutions.

Chlorine gas has been widely used for sterilizing sewage or wastewater, but its handling is strictly regulated by laws and ordinances due to its toxicity and danger.

However, recently, sterilization using sodium hypochlorite or calcium hypochlorite, which is said to be easier to handle and safer than chlorine gas, has been considered.

That is, a technology for producing sodium hypochlorite by electrolyzing seawater has been developed, and this seawater electrolysis method has been attracting attention as a method to replace chlorine gas. In places where a large amount of seawater is used as cooling water, it can prevent piping from clogging due to adhesion of underwater microorganisms.
The use of seawater electrolysis instead of chlorine gas is being considered for sterilizing sewage treatment at beaches. However, in this seawater electrolysis method, the biggest problem is the electrode for electrolyzing the seawater.
There are various problems in terms of strength, corrosion, and poor electrical continuity during actual use.

The present invention relates to an electrode for electrolysis used in seawater electrolysis and other electrolysis methods, which has corrosion resistance, strength, no corrosion during use, no poor electrical continuity, and no leakage of liquid or gas. The present invention provides electrodes for use in

The electrode for electrolysis of the present invention is characterized in that one or more electrode rods made of a corrosion-resistant material are inserted into holes drilled in the electrode plate, and the electrode plate into which the electrode rods are inserted is The electrode plate and the electrode rod are integrally formed so that pressure is uniformly applied to the electrode plate from all around the electrode plate, and a sealing material is provided on both sides of the electrode plate.

The electrode for electrolysis of the present invention has good corrosion resistance against corrosive liquids and corrosive gases, and the electrolytic solution and gas generated by electrolysis do not leak and are stable. can be used.

The electrode for electrolysis of the present invention will be explained in detail below.

FIG. 1 is a schematic side view of the electrode for electrolysis of the present invention, and the hole (which may be one or more) drilled in the electrode plate,
Electrode rods 2 (two in the figure) are inserted, and lead wires 3 are also inserted into holes in the electrode plate 1.

Further, a sealing material 4 made of rubber or synthetic resin is provided on both sides of the electrode plate 1, and the thus assembled product is attached to the electrode plate 1 from the entire circumference of the electrode plate 1 in the direction of the arrow A uniform pressure is applied thereto by, for example, a swaging machine or a hydraulic hanomer. By applying uniform pressure from all around the electrode plate, the electrode plate 1,
The electrode rod 2 and the lead wire 3 are tightly connected and integrated, so when used as an electrode for electrolysis, electricity flows extremely smoothly, and the electrolyte and generated gas do not leak during use. Never.

Furthermore, the sealing material 4 provides even better sealing performance. When the electrode for electrolysis of the present invention is used in an electrolysis ellipse, it can be applied to either an anode or a cathode by selecting the material of the electrode 2.

The material of the electrode plate 1 of the electrode for electrolysis in the present invention is as follows:
It is preferable to use aluminum, aluminum alloy, copper, or copper alloy, and any other conductive metal can be used. One or more electrode rods 2 are attached to this electrode plate 1 in close contact with each other, and the electrode rods 2 are preferably arranged in a staggered manner from the viewpoint of current efficiency. The electrode plate 1 may have any suitable shape, such as a circle, an oval, an oval shape, or a rectangle.

Next, the shape of the electrode rod 2 is appropriately selected and used, such as a circular, elliptical, oval, triangular, or square cross-sectional shape as shown in FIGS. 2A, b, c, d, and e.

When the electrode for electrolysis of the present invention is used as a cathode, steel (SS4l), ordinary steel, etc. is used for this electrode rod 2, but when it is used as an anode, the material described below is used. You can also do that. The material of the electrode rod 2 when the electrode for electrolysis of the present invention is used as an anode will be explained. In FIG. 3a, a coating layer 11 of titanium, titanium alloy, etc. is provided on the entire surface of a rod-shaped body 10 made of a conductive material such as aluminum, aluminum alloy, copper, copper alloy, etc., and further, platinum plating is applied on the entire surface thereof. The electrode rod 2 is shown when used as an anode provided with a layer 12.

In addition, in FIG. 3b, an iron coating layer 14 is provided on the entire surface of a rod-shaped body 13 made of a conductive material such as aluminum, aluminum alloy, copper, copper alloy, etc., and a coating layer of glass and platinum powder is further provided on the entire surface thereof. An electrode rod 2 is shown provided with a lining layer 15 consisting of a mixture. Semiconductor ceramic can be used instead of this mixture of glass and platinum powder.
Other materials for the rod-shaped bodies 10 and 13 include titanium,
Titanium alloys, tantalum, tantalum alloys, zirconium, zirconium alloys, etc. can be used, graphite or a mixture of graphite and metal powder can be used instead of the platinum plating layer, platinum alloys, palladium, palladium alloys can be used instead of platinum. Platinum group metals such as or alloys thereof can also be used.

As described above, from the viewpoints of corrosion resistance, strength, and conductivity, the electrode rod 2 is preferably made of various combinations of the materials described above, or each of the materials described above can be used alone.

When the electrode for electrolysis of the present invention is actually installed in an electrolytic oval for electrolysis, it can be used as an electrode with extremely high current efficiency by selecting the material for either the anode or the cathode. .

Next, FIG. 4 shows the case where the electrode for electrolysis of the present invention is implemented in combination as an anode and a cathode, that is, both the anode and the cathode have the structure described above (in FIG. 1), This is combined with the anode and cathode electrode rods 2, 2/ arranged alternately as shown in Fig. 4, and the plurality of electrode rods 2, 2'' are arranged in a staggered manner on each electrode plate 3, 31, respectively. Therefore, the current efficiency is good.

Then, in the state shown in FIG. 4, if it is installed in a shell, an electrolytic solution such as seawater or saline solution is flowed into the shell, and electrolysis is performed by passing a current through the lead wires 3 and 3/. Extremely efficient electrolysis can be performed.

As explained above, according to the electrode for electrolysis of the present invention, since the electrode plate and the electrode rod are tightly attached and integrated, an electrode with good airtightness and liquidtightness and good current efficiency can be obtained. For example, it can be sufficiently applied as an electrode for electrolysis in seawater electrolysis.

[Brief explanation of the drawing]

Fig. 1 is a schematic cross-sectional view of the electrode for electrolysis of the present invention, Fig. 2 is a schematic view showing the cross-sectional shape of the electrode rod, Fig. 3 is a cross-sectional view of the electrode rod, and Fig. 4 is a schematic cross-sectional view of the electrode for electrolysis of the present invention. It is a schematic sectional view showing an example when used in combination. 1... Electrode plate, 2... Electrode rod, 3...
... Lead wire, 4 ... Sealing material, 10
, 13... rod-shaped body, 11... coating layer,
12...Metallic layer, 15...Lining layer of a mixture of glass and platinum powder.

Claims (1)

[Claims] 1 One or more electrode rods made of a corrosion-resistant material are inserted into holes drilled in the electrode plate, and pressure is applied uniformly to the electrode plate from the entire circumference of the electrode plate into which the electrode rods are inserted. An electrode for electrolysis, characterized in that an electrode plate and an electrode rod are integrally constructed, and a sealing material is provided on both sides of the electrode plate.