DE102011052800A1 - Thermoelectric plant for electric car, has impeller that is driven with generator by flow of ether gas, and is cooled by making ether gas into liquid phase due to ignition of hydrogen and oxygen - Google Patents

Abstract

The thermoelectric plant has an impeller that is driven with generator (6) by flow of ether gas, for transferring power to a battery. The impeller is cooled by making the ether gas into liquid phase due to ignition of hydrogen and oxygen. The wings of impeller are attached to shaft and supported in drain channel so that the water vapor is stored in drain channel and is passed along sub-channels.

Description

The invention relates to a closed system for the electrolysis of water to liquid oxygen and hydrogen. The object of the invention is, for example, to use a new type of power generation to optimize the area-based solar energy and exploit the landscape invisibly. This object is achieved by the solar heat of roads is used by the incorporated into the asphalt pipe loops to generate electricity in order not to freeze the device described. Thus, waste heat before combustion power plants can be used electrically or geothermal energy, without circulation pump, thermally. The basic principle is in DE 10 2006 047 616 A1 described in which constantly icing water is used as a drive.

The thermoelectric system according to the invention has an impeller pump 33 , which is driven by means of flowing around ether and can then forward the energy to a battery. By ignition of hydrogen and oxygen as well as water vapor creates a pressure drop, which ices the impeller. This cools the ether and returns to a liquid state. The ether becomes gaseous from a temperature of 35 ° C. This can be achieved if the ether lines are embedded in the form of one or more heat loops, for example in the road surface. In the gaseous state, the ether flows from a pipe loop via a latent heat accumulator into a heat casing filled with copper chips (heat transfer medium). If the impeller pump is wrapped with a complete copper pipe in which circulates the ether, can be dispensed with the heat housing. After the ether has cooled down after repeated circulation of the impeller pump, it flows due to gravity into the other pipe end lying below. A drainage channel is mounted centrally so that the mass of water vapor is stored dynamically. As a result, the pressure is not only used by a hydraulic motor. The blades of the impeller pump are fastened on the one hand to a shaft and on the other hand mounted in the discharge channel, so that the water formed can push bubble-free through sub-channels. The heated ether repeatedly flows around a channel in the heat housing, the discharge channel and the impeller pump over a heat conveyor screw. As energy storage is a battery. The battery consists of a battery case in which a balloon-folded contact loop is inserted. The contact elements are connected to non-conductive and elastic tips, wherein the unfolded contact loop is fixed to the battery case. The contact loop is looped through electrically from contact to contact and contact element. The mobile electric energy storage can absorb unused overcurrent and sell it by electric filling stations.

Show it:

With the help of an electric charging station for e-cars in the 1 be explained in more detail. This system according to 1 keeps the water in the circulation around the heat energy from the heat loop 8th constantly needed not to freeze in power generation. The heat loop 8th is preferably arranged below by sun-warming surfaces, so that it also heats up and the ether flowing through is heated. For example, road surfaces, yard or road surfaces, roof surfaces and the like are used as heating surfaces, among which the heat loops 8th be moved. Thus, every absorbed heat energy is converted almost 100% into electrical energy.

The system freezes when not enough heat arrives In container 1 (Battery), the water has settled in liquid oxygen and hydrogen at maximum electrolytic gravity, so that the valves 2 the corresponding liquids are metered into the reactor vessel 3 Tangential flows so that it comes to the ideal chemical and physical mixing. If the spark plug 4 ignites the gasifying liquid, produced by water, water vapor of the energy-neutral expands many times to steam and lowers the temperature but at the same time increases the dynamics. eg the gear pump 5 acts as a hydraulic motor and generated by the electric generator 6 Electricity being at the transition 7 comes to pressure drop and icing. If this closed system is to generate electricity, it must also be supplied with energy in order not to stand still as a perpetuum mobile. Therefore, in this case, the dark and heated by the sun asphalt road over the incorporated pipe loop 8th the necessary heat energy in the housing 9 fed to not freeze those with low + degrees Celsius at the expiration 10 the pipe loop 8th closes. The power generator 6 is with the series contact loop 11 where the copper pores contacts 12 are also connected in series, so that the car battery to be charged without much regulation at the Stromzapfbuchse 13 Can draw electricity. For a better installation, the contact loop 11 with the non-conductive tip 16 held together. The water tank 14 balances pressures and water leakage and is with the pipe 15 to the reactor vessel 3 connected. If the heat energy is too low, the icy transition can occur 7 The hydrogen produced by under-utilized wind turbines can best be used or converted into electrical energy. It is even better to store the unused electricity locally on the mobile battery, for example Electric charging stations for sale. 2 shows the structure of such a battery. The battery consists of a battery case 17 into which a contact loop folded in a balloon 18 is inserted. Because contact elements 19 with non-conductive and elastic tips 20 connected, pushes the unfolded contact loop 18 on the battery case 17 and is fixed like that. In the 2 illustrated seven-fold contact loop 18 becomes looped from contact to contact and contact element 19 flows through electrically.

As an alternative to prevent icing can instead of the gear pump 5 an impeller pump 33 can be installed at which ether prevents icing. In 3 is the structure of such a vane pump 33 shown. There are two views of an impeller pump 33 shown. In order not only to use the pressure of the water vapor via a hydraulic motor, the mass of the water vapor is dynamically used by a discharge channel B 29 is mounted centrally. These are wings 23 the wing pump on the one hand to a shaft 24 attached and on the other hand in the discharge channel B 29 stored, so that the water formed bubble-free through sub-channels 25 can push. The heated ether flows several times over the channel 21 in the heat housing 22 ,

The heat housing 22 and the heat worm screw 27 can be omitted if the vane pump 33 wrapped with a pipeline and with a latent heat storage 34 and, for example, lying in the road, heat loop 8th is connected ( 3 ). About the pressure channel 30 becomes the impeller pump 33 operated with steam. The ventilation bell 31 balances the pressure and condenses volatile ether over the pipe spiral 32 ,

LIST OF REFERENCE NUMBERS

1

container

2

valves

3

reactor vessel

4

spark plug

5

gear pump

6

electric generator

7

crossing

8th

pipe loop

9

casing

10

procedure

11

Series contact loop

12

Copper pore Contact

13

Current journal bush

14

water tank

15

management

16

Non-conductive tip

17

battery case

18

Contact loop

19

contact element

20

Elastic lace

21

channel

22

heat housing

23

wing

24

wave

25

subchannel

26

Discharge channel A

27

Heat sheet metal screw

29

Discharge channel B

30

pressure channel

31

ventilation bell

32

pipe spiral

33

 Vane

34

Latent heat storage

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006047616 A1 [0001]

Claims (10)

Thermoelectric system, characterized in that an impeller pump ( 33 ) is driven by means of circulating gaseous ether and the energy by means of a generator ( 6 ) to a battery. Thermoelectric system according to claim 1, characterized in that the impeller pump ( 33 ) is frozen by ignited hydrogen and oxygen, as well as water vapor as a result of a pressure drop and thus cools the ether and brings it into a liquid state. Thermoelectric system according to claim 1 or 2, characterized in that substantially of 35 degrees Celsius, the gaseous ether from a pipe loop ( 8th ) in a, with copper chips (heat conductor) filled heat housing ( 22 ) increases. Thermoelectric system according to one of claims 1 to 3, characterized in that after repeated flow around the impeller ( 33 ), the ether liquefies and due to gravity into another, lower end of the pipe loop ( 8th respectively. 28 ) flows. Thermoelectric system according to one of claims 1 to 4, characterized in that a discharge channel A ( 26 ) is mounted centrally so that the mass of water vapor is stored dynamically. Thermoelectric system according to one of claims 1 to 5, characterized in that wings ( 23 ) of the impeller pump ( 33 ) on the one hand on a shaft ( 24 ) and on the other hand in the discharge channel A ( 26 ) are stored so that the water formed bubbles through sub-channels ( 25 ) can push. Thermoelectric system according to one of claims 1 to 6, characterized in that the heated (gaseous) ether is a plurality of helically over a channel ( 21 ) the heat housing ( 22 ), the discharge channel B ( 29 ) and the impeller pump ( 33 ) flows around. Thermoelectric system according to one of claims 1 to 7, characterized in that the battery is a balloon-like battery housing ( 17 ), in which a balloon-folded contact loop ( 18 ), with contact persons ( 19 ) is inserted. Thermoelectric system according to one of claims 1 to 8, characterized in that the contact elements ( 19 ) with non-conductive and elastic tips ( 20 ), wherein the unfolded contact loop ( 18 ) on the battery housing ( 17 ) is fixed. Thermoelectric system according to one of claims 1 to 9, characterized in that a particular seven-fold contact loop ( 18 ) loop-shaped from contact to contact and contact element ( 19 ) is flowed through electrically.

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