KR20060068702A - Seawater power generation equipment - Google Patents

Abstract

The present invention reacts with a metal or non-metallic material such as zinc plate and copper plate in each power generation tank formed in the main body using various electrolytic materials contained in seawater as a main raw material and converts them into electrical energy sources by ionization. The positive electrode and the zinc negative electrode are charged to generate power, and the small power generated in this manner is stored in a capacitor or a battery, and the power collected in the capacitor or the battery is collected again in a capacitor or a battery having a larger capacity. It can be converted into the required power energy.

Description

Seawater power plant

1 is a perspective view of the seawater generator

2nd section of the alloy

Explanation of symbols on the main parts of the drawings

A: seawater generator 1; Maritime 2: Float for Power Generation

3,3 ': flowing water part 4: power generation part 5: power generation cell

6: base plate 7: support plate 8: separator

9 negative electrode plate 10 positive electrode plate 11

12: seawater 13: key plate 14: connecting wire

15: condenser or storage battery 16: large capacity condenser or storage battery

The present invention relates to seawater power generation and apparatus that converts inexhaustible seawater into chemical electrical energy to be used as a necessary power source.

The conventional technology is simply a simple seawater battery has been developed, but has not been effective, the special technology is a state that has not been developed, it is simply a state that only the production of salt in the coastal area.

In view of the above, the present invention, which has been researched and developed for many years, includes metal materials including zinc plate and copper plate in each independent power generation cell in which various electrolytic substances contained in seawater are formed as a main material in a floating body. A positive electrode plate and a negative electrode plate made of a non-metallic material are made and reacted with seawater to be converted into an electrical energy source by ionization.Then, the battery is charged with a positive electrode plate and a negative electrode plate, and the generated power is stored in a capacitor or a battery. When the power supply is a series or parallel type, it can be converted into the necessary power energy by condensing a capacitor or a storage battery of a larger capacity.

In manufacturing and constructing the seawater power generation device (A), a plurality of power generation subassemblies (2) are placed on the sea (1), and each of the subassemblies (2) is installed on the body (2) at regular intervals. Condenser or storage battery 16, which is a current collector, is connected in parallel or in series with the conductors 14, so that the four sides of the power generating body 2 can flow in and out of the seawater 1 so that the seawater 1 can freely enter and exit. (3) (3 ') so that the moving seawater can always come in and the top plate of the power generating body (2) can be submerged in the seawater with a number of power generation units (4) for seawater power generation. In the copper power generator section 4, an independent power generator cell 5 is inserted into the power generator section 4 to facilitate insertion and insertion so that electromotive force can be generated using seawater as an electrolyte. The construction of the power generation cell 5 is made by laying a water receiving base plate 6 'at the bottom and The support plate 7 having the recess 13 formed thereon at regular intervals is connected to form a power generating cell 5, and for each of the copper generating cells 5 configured as described above. The recessed part 13 may be formed of a perforated or intact zinc plate or a negative electrode plate 9 and a separite mesh plate 10 having a predetermined width in accordance with a current amount formed of a metallic or nonmetallic material, and a copper or metal or nonmetallic material that is perforated or intact. The power generated by the charging of the flowing sea water 12 and the positive electrode plate 11 and the negative electrode plate 9 by inserting the plates at a predetermined interval in the order of the positive electrode plate 11 having a predetermined width in accordance with the amount of electric current generated by each capacitor or Capacitors are stored in the storage battery 15, and the capacitors or the storage batteries 15, which are made in this way, are connected to each other in a direct thermal manner, thereby making a high voltage and a current amount. It can be connected to a denser or storage battery 16 to produce a larger capacity power supply, and each capacitor or storage battery 16 can be connected to each other in series or in parallel so that a larger capacity power supply can be obtained. It was made to be collected by fire.

In other words, each small power generation unit is made into an independent power generation cell, and these are aggregated and the aggregates thus collected are gathered again into a large aggregate, thereby generating a larger amount of power by seawater.

This seawater power generation device manufactured in this way is used to induce ionization of various electrolytes dissolved in seawater by the positive and negative plates, which can be converted into a power source, and gathered in one place to provide a large capacity energy source. It is a seawater power generation device that makes it possible to expect the effect of making it and the effect of using it as infinite energy of pure pollution as an alternative energy.

Claims (1)

In manufacturing and constructing the seawater power generation device (A), a plurality of power generation subassemblies (2) are placed on the sea (1), and each of the subassemblies (2) is installed on the body (2) at regular intervals. Condenser or storage battery 16, which is a current collector, is connected in parallel or in series with the conductors 14, so that the four sides of the power generating body 2 can flow in and out of the seawater 1 so that the seawater 1 can freely enter and exit. (3) (3 ') so that the moving seawater can always come in and the top plate of the power generating body (2) can be submerged in the seawater with a number of power generation units (4) for seawater power generation. The copper generator 5 is formed at the bottom by inserting the power generator 5 which is easily inserted into and inserted into the power generator 4 so that electromotive force can be generated using seawater as an electrolyte. Flattening water support plate (6 ') on the part and spaced at a certain distance thereon The supporting plate 7 is formed to be connected to form a power generating tank 5, and each insertion plate recess 13 of the same power generating tank 5 is formed of a perforated or intact zinc plate or a metallic or non-metallic material. At constant intervals, the cathode plate 9 and the separite net plate 10 of a constant width in accordance with the amount of current, and the copper plate of perforated or intact, or the anode plate 11 of a constant width in accordance with the amount of current made of metal or nonmetallic material. The power generated by the charging of the seawater 12 and the positive electrode plate 11 and the negative electrode plate 9 flowing through the insertion plate is stored in each of the capacitors or the accumulators 15, and the condensers or accumulators are formed as described above. 15) by connecting the batteries in series and making them with high voltage and current, and connecting them to the large capacity capacitor or storage battery 16 It is possible to produce a power supply of capacity, and each of the storage batteries 16, which are thus produced, in series or in parallel to allow more power to be collected in the current collector. That is, the seawater power generation apparatus that makes each small power generation unit an independent power generation cell, aggregates them, and then aggregates the collected aggregates into large aggregates to generate power by a larger amount of seawater. .

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