DE2406064A1 - Electrolytic decompsn of water to give hydrogen fuel - esp using wind-generated electricity and U-tube water containers - Google Patents

Abstract

Electrolytic water-decompsn. plant and energy store forming H2 and O2 for subsequent recombining when energy generation is required, comprises a number of U-tubes, esp of glass, arranged in series and mounted in a block of glass, acrylic glass, plastics or hard rubber; at the lower point of the two vertical arms of the tube, internal electrodes, esp. Pt electrodes, are connected to current supply bars. A water supply line from a common tank leads to all the tubes, the upper, open ends of the tubes being connected to O2 and H2 discharge lines. Used for storing energy from e.g. windmills. The H2 is an ideal fuel for heating and motors, giving no toxic products when burnt.

Description

"" Water splitting system and energy storage device The invention relates to a ttWater splitting system and energy storage.

For the storage of the electricity generated by turbine generators an energy conversion into a storable form is required.

A favorable form of fuel storage is hydrogen and oxygen.

Hydrogen and oxygen is an ideal fuel for environmentally friendly Heating systems and ftoren. To that for a wide use of such heating systems and engines to generate required amounts of hydrogen and oxygen is it is advisable to use every such heating system, every such i; Totor and every wind turbine generator with a system for the production and storage of hydrogen and oxygen, a water splitting system and energy storage.

Heating systems and engines that also have a generator to generate electricity power, as well as smaller wind turbine generators, are small power generators for the the production of hydrogen and oxygen by electrolysis is the most expedient Procedure is.

The electrolysis process for the production of hydrogen and oxygen from water is known. Hydrogen and oxygen are not yet used in heating systems and the usual e-vehicle and aircraft engines, so there are still no water splitting system and energy storage for these heating systems and motors.

The invention is based on the object of a water splitting system and an energy storage system for the production and storage of hydrogen and oxygen by electrolysis from water, for the partial self-supply of hydrogen and to create oxygen heating systems and D-engines with hydrogen and oxygen, as well as the energy obtained from wind turbine generators for use in hydrogen and converting and storing oxygen heating systems and engines.

This object is achieved according to the invention in that, according to the modular principle, U-shaped tubes - preferably made of glass - lined up one behind the other and formed into a fixed one Unit are connected by tine in glass, acrylic, plastic, or Hard rubber block are melted or inserted so that the upper ends of the U-tubes are exposed, or the lines beginning at the upper end of the U-tubes for the collection of the hydrogen and oxygen obtained in this block so miteineschmolsen, or are also plugged in, that the lines from this block are led out, continue so that the water supply pipe and the power cables are melted down with busbar, benz. so that the insides of the U-tubes with water inlet and distribution line and the power cables with busbars are exposed, or in a box made of wood, plastic, metal, acrylic glass, Eartgusmi or glass, with molded holder in the box for the individual tubes, plugged in and with one another are connected, or that the individual U-tubes are supported by metal brackets, Wood, plastic, glass, acrylic glass, hard rubber or textiles in the form of a stand are connected to each other with an IT holding device. Rows are used for larger units of U-tubes arranged next to each other and connected to one another, the Bnlagen can can be enlarged or reduced as required. Two rows arranged side by side can due to the semicircular arrangement of the U-tubes at the ends of the parts to be connected with each other and united to form a unit with i = more common Water supply and distribution line, as well as with a common endless busbar. Every U-tube has water inlet, preferably on the inner side at the lowest point the U-tube, the water inlet is from a water tank through the middle the open part of the U-tube led water pipe with connection of the individual U-tubes. The water supply is controlled and metered by pressure and Counterpressure, i.e. the pressure of the incoming water, is measured in such a way that it is in The U-tubes flows as soon as the water level in the U-tubes drops a certain level Has fallen below the point and the water supply is ended as soon as the water level is reached has reached a certain upper point in the U-tubes, or by mechanical means or electrically controlled valves.

Inside the U-tubes are the inner ones at the two lower points Sides of the straight electrodes - preferably platinum electrodes - attached to the a conductor passed through the glass wall is connected to the conductor rail are.

The busbar is in the inner, open part of the U-tube behind the Electrodes are attached to one side of the U-tubes, and the electrodes are attached to them connected to one side of a row of U-tubes. To one of the busbars Side is the negative pole, on the other side the positive pole of the generator The power cable is laid so that the electrodes are on one side of the row of U-tubes the cathode, the electrodes on the other side of the U-tube row the anode in the electrolytic cell.

A line is connected to each of the ends of the U-tube, which are open at the top, the lines on one side of the U-tube row each lead to a tank, so that for the two sides of the U-tube row two separate tanks with separate Supply lines are available.

The U-tubes are filled to the same height with water. With power supply the water contained in the U-tubes splits into hydrogen and oxygen, the gases rise separately at the two pipe ends and are transferred from there the lines are each fed to the hydrogen and oxygen tanks. Of the separate tanks lead separate lines via separate injection pumps to the Hydrogen injection nozzle, respectively. the oxygen injector in the engine, respectively.

the heating system.

The advantages achieved with the invention are in particular: that wherever an engine powered by hydrogen and oxygen or a heating system heated with it, or a turbine generator is running, hydrogen and oxygen for the partial self-supply of the rotors and operated with it Peizanlagen is obtained, as well as darln that thus an energy storage for the from Electricity generated by wind turbines is created, which means that it is widely used is made possible by wind turbine generators.

Wind turbine generator + water splitting system and energy storage + with hydrogen and Oxygen-heated heating system, or motor driven by it, which in turn is connected to the Water splitting system and energy storage are connected, results in a new energy supply system.

Embodiments of the invention are shown in the drawings and are described in more detail below. 1 shows an inventive Water splitting system and energy storage, cast in a block, is shown the U-tube with the connected lines to the hydrogen and oxygen tanks, the lines are led through the block to the outside, inside the U-tube are the electrodes (1) that go through the wall of the U-tube with the busbar (2) connected to the busbar is on one side of the positive pole the other side of the negative pole of the power line (3) that goes through the block is led to the outside, connected. The water supply line (4), which is also leads through the block to the outside of the water tank, with an inlet in the U-tube.

Fig. 2 A water splitting system according to the invention with energy storage, the U-tubes are firmly arranged one behind the other in a holder, the holder leaves the interior of the U-tube free, the water inlet line (4) is in the interior with inlet into the U-tube, the water inlet is regulated by a slide valve (5), in the interior is also the busbar (2) with connected plus or. Negative pole of the power line (3), inside the IJ tube are the electrodes (1), which are connected to the Busbar are connected.

Fig. 3 A water splitting system according to the invention with energy storage, shown is the row of U-tubes one behind the other, as well as the busbar (2) to which the electrodes of the individual U-tubes are connected (1).

Fig. 4 A water splitting system according to the invention with energy storage, shown are two rows of tubes juxtaposed to form a larger unit are combined in one block.

Fig. 5 A water splitting system according to the invention with energy storage, Top view of two rows of U-tubes arranged side by side with semicircular shapes Arrangement of the U-tubes on the Row ends (it's just a few U-tubes indicated), the endless busbars (2) are shown. The same is true here for the water inlet pipe guided.

AnsDrüche: 1. Water splitting system and energy storage, characterized in that that U-shaped tubes - preferably made of glass - are enough in a row and in a holder connected to a solid unit that inside the U-tubes on the two lower points of the inner side of the straight line of the U-tube electrodes -preferred Platinum electrodes are attached, which are passed through the glass wall with a Conductor with a power rail.

are connected to either the negative pole or the positive pole a power cable are connected, and that each U-tube has a water inlet pipe which is connected to a water tank via a common water pipe is, furthermore, that to the open-topped ends of the U-tubes each have a line is connected and the lines åewells one side of the U-tube row with one common tank are connected.

2. water splitting system and energy storage device according to claim 1, characterized gekennseichnet that the bracket in which the U-tubes are connected to form a fixed unit are, a block made of glass, acrylic glass, plastic or hard rubber is in which the U-tubes melted or plugged in so that the upper ends of the U-tubes are exposed and the water line and the power line are passed through the block.

Claims (1)

3. water splitting system and energy storage device according to claim 1, characterized characterized in that the holder in which the tubes are connected to form a fixed unit are, a block of glass, acrylic glass, plastic or Hartruiumi is in which the U-tubes are melted or inserted in such a way that the lines from the U-tubes to the tanks, as well as the water pipe and the power line passed through the block are. 4. water splitting system and energy storage device according to claim 1, characterized characterized in that the holder in which the U-tubes are fixed Unit are connected, a block of glass, acrylic glass, plastic or hard rubber is, in which the U-tubes are melted or inserted with their outside are that the interior of the U-tubes is exposed. 5. water gap system and energy storage device according to claim 1, characterized in that that the holder in which the U-tubes are connected to form a fixed unit Box made of wood, plastic, metal, acrylic glass, tartgurnmi or glass is, with in The inside of the box is molded holder for the individual U-tubes. 6. water splitting system and energy storage device according to claim 1, characterized characterized in that the holder in which the U-tubes are connected to form a fixed unit are, a stand with a holding device for the individual U-tubes, made of metal, wood, Plastic, glass, acrylic glass, rubber, or a fabric for a painting belt is. 7. water splitting system and Snergiespeicher according to claim 1, characterized characterized in that the trombar in two juxtaposed U-tube rows with an arrangement of the U-tubes at the ends of the row in a semicircle, is endless. 8. water splitting system and energy storage device according to claim 1, characterized characterized in that the water supply line in the U-tube, on the inside Side - from above - is connected to the lowest point of the U-tube. 9. water splitting system and energy storage device according to claim 1, characterized characterized in that the water supply line in the U-tube, down on the outside Side is connected to the lowest point of the U-tube. 10. water splitting system and energy storage device according to claim 1, characterized characterized that the water supply line is connected to the straight line of the U-tube is. 11. water splitting system and «nergiesneicher according to claim 1, characterized characterized in that the water supply line has a slide (valve). 12. water gap and energy storage according to claim 11, characterized characterized in that the slide has an automatic control in the form of a regulator having. 13. Water splitting system and energy storage device according to claim 12, characterized characterized in that the controller has a device for measuring the water pressure in the U-tubes. 14. Water splitting system and energy storage device according to claim 12, characterized characterized in that the controller has a device for measuring the water level in the U-tubes. 15. Water splitting system and energy storage device according to claim 12, characterized marked that the. Controller has a timer. 16. Water splitting system and energy storage device according to claim 12, characterized characterized in that the controller has a device for measuring the current output. 17. Water splitting system and energy storage device according to claim 12, characterized characterized in that the controller has a thermostat. 18. '\ iasserspaltanlage and Gnergiespeicher according to claim 12, characterized characterized in that the controller has a gas pressure switchgear. 19. Water splitting system and energy storage device according to claim 12, characterized characterized in that the controller has a mercury switch. 20. Water splitting system and energy storage device according to claim 12, characterized characterized in that the controller has a liquid switch. 21. 'vasserspaltanlage and energy storage device according to claim 12, characterized characterized in that the controller has a device for connection to the engine. 22. Water splitting system and energy storage device according to claim 12, characterized characterized because; ß the controller has a device for connection to the heater having. L e r s e i t e