DE202012008056U1 - Self-sufficient power generating unit based on the principle of energy amplification with a hydrogen combustion engine as drive - Google Patents

Abstract

A self-powered unit for producing energy, characterized in that it is a circuit with different energy consumption points and only requires water to maintain the operation.

Description

State of the art

Aggregates which serve to generate electrical energy by driving a generator, whether by water, wind, solar, thermal or chemical energy, which is used as primary energy, are well known. This type of power supply currently covers the world's energy needs.

Furthermore, even self-powered systems have been developed which produce more energy than is needed to maintain the operation and thus represent an energy boost. This energy gain was previously only with generators, which are driven by an electric motor realized.
Entries: 20 2011 003 837.8
DE 20 2006 009 117 U1
DE 10 2005 048 657 A1
DE 00 0020 312 301 U1

Task of the invention

So far, the safeguarding of the global energy industry depends on the presence of fossil fuels or radioactive raw materials and the vagaries of nature in the use of renewable energies.

Furthermore, there is the problem of energy storage. Hydrogen is an energy source and thus a storable form of energy, however, the energy required to produce the hydrogen has not yet been solved cost-effectively, since there is no real energy overproduction.

The water vapor produced by the combustion of hydrogen, in turn, has so far unexplained effects on the environment and thus the weather.

Also exist so far only aggregates for energy production, in each of which only a single form of energy can be used, so either mechanical, electrical or chemical energy can be removed from the system, which makes these devices is not universally applicable.

Troubleshooting

The unit uses the principle of energy amplification. The functioning of the unit is the transformation of chemical energy into mechanical energy, from mechanical energy to electrical energy, from electrical energy to chemical energy. This structure, as well as the accompanying drawing, show that it is a circuit in which there are three different energy extraction points, the unit provides itself with the required energy.

A hydrogen combustion engine drives a generator via a transmission, the output power at the generator being higher than the input power of the driving hydrogen engine and thus representing an energy boost.

The energy amplification in this first part of the system is done by energy conversion taking into account different physical parameters.

At the same time there are two possibilities of energy absorption in different forms in this part of the system. On the one hand there is the possibility to use mechanical energy at the gearbox and secondly the decrease of electrical energy at the generator.

In the second part of the unit, the electrical energy produced by the generator is used to operate an electrolyser to split water into hydrogen and oxygen.

The water required for this purpose does not have to meet any quality requirements, as it is cleaned before use in the electrolyzer via a built-in filter and thus any type of water can be used.

The hydrogen and oxygen split by the electrolysis are each prepared and filled for filling in tanks by refrigerators, compressors and pumps, which are operated with a part of the electrical energy produced by the generator.

Here, the third possibility of energy extraction in the form of chemical and simultaneously storable energy in the form of hydrogen can be seen.

The amount of hydrogen that may be taken out of the system here can also be taken as oxygen in the equivalent amount not needed in the system.

The hydrogen and oxygen are led from the tanks to the hydrogen combustion engine to serve as fuel in this, whereby the supply of oxygen, the combustion of hydrogen in the engine runs more controlled.

During the combustion of hydrogen and the supply of oxygen, the normal chemical reaction takes place, in which both elements recur connect to water, which in the form of water vapor represents the exhaust gas from the combustion.

This exhaust gas, so the water vapor is collected so that it does not enter the environment and there has unexplained effects. There is no further environmental impact due to the operation of hydrogen combustion engines.

The steam is cooled by a cooling unit so that it can be routed back to the water tank in the liquid state.

The return of the combustion product water vapor increases the autonomy of the unit until the water tank is refilled.

To start the unit so only a small amount of hydrogen and oxygen is needed, which must be previously filled in the tanks, and a small battery, which is continuously charged via a charger with a small part of the electricity produced by the generator to the spark to deliver for combustion. However, it must also be ensured that there is a minimum amount of water in the tank.

For continuous operation of the unit so only water is needed and water represents 70.7% of the total surface of the earth and is thus sufficiently available.

Thus, the problem of dependence on fossil and radioactive raw materials, as well as the dependence on the vagaries of nature through the use of renewable energies, solved and secures the future of the global energy industry, since the unit itself provides energy.

The unit can be used universally thanks to the three different energy consumption points, which allow the use of mechanical, electrical and chemical energy, depending on the form of energy required.

The unit thus solves the task of cost-effective production of hydrogen by the energy gain.

The unit can be controlled by a built-in control, which allows the influence on the amount of energy to be produced.

embodiment

The unit is basically universally applicable but can also be used for specific applications of energy supply.

So is a possible use of stationary use. Conceivable and possible are complete power plants that serve purely for power generation. The additional function of hydrogen production is possible if, for example, not all the energy produced is needed at night. All use of renewable energy sources can be made more efficient and more profitable by downstreaming such an aggregate. Self-sufficient power supply of houses, villages, communities, cities in areas without a developed power supply network are also possible. The only good needed is water.

Another possibility is the mobile use, which is roughly divided over all vehicles on land, water and in the air, which are driven by a motor.

In this application, the vehicle has a hydrogen reserve, as any normal vehicle has a fuel reserve, but this reserve is here to start. The hydrogen needed for further operation is produced during use of the vehicle. Again, only water is needed to maintain the operation. The combustion of hydrogen in turn produces water, which is collected in order to keep water consumption as low as possible and thus to increase the range of the vehicles.

advantages

The safeguarding of the future of the world energy industry is possible by this aggregate, since the construction of cascades in the stationary use possibility multiple energy amplification is possible and thus raw materials are protected, no weather dependence more, as renewable energy and there only the most common good on the Earth, ie water, is needed for the maintenance of the business.

The environment is not burdened in any way, as the combustion of hydrogen produces no harmful emissions and even the water produced during combustion is recovered.

Valuable drinking water reserves can be spared, since operation is also possible with dirty or salt water.

The unit allows the cost-effective production of hydrogen, so a fuel, which also represents a loss-storable energy in contrast to batteries.

The conservation of the landscape is possible again, since no pipelines, power lines or wind turbines are needed longer.

No lengthy research and development work is necessary, as all the components required for the design already exist and have been tested.

LIST OF REFERENCE NUMBERS

1

Hydrogen combustion engine as a drive motor

2

transmission

3

generator

4

electrolyser

5

water filters

6

water tank

7

Unit with refrigeration unit, compressor and pump for hydrogen

8th

Unit with cooling unit, compressor and pump for oxygen

9

Tank for hydrogen

10

Tank for oxygen

11

Cooling unit for water vapor cooling

12

battery

13

battery charger

14

Control and monitoring unit for the entire system monitoring and regulation of the amount of energy to be produced

*1

possible removal point of mechanical energy

* 2

possible withdrawal point of electrical energy

* 3

possible withdrawal point of chemical, storable energy in the form of hydrogen, whereby the not required in the system equivalent amount of oxygen can also be removed

-

encloses the components belonging to the first part, in which the energy amplification takes place

a, b, c, d and e

represent partial acceptance of the electricity produced

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 202006009117 U1 [0002]
• DE 102005048657 A1 [0002]
• DE 000020312301 U1 [0002]

Claims (7)

A self-powered unit for producing energy, characterized in that it is a circuit with different energy absorption points and only requires water to maintain the operation. An assembly according to claim 1, characterized in that in part one of the unit (marked in the drawing) an energy gain by energy conversion taking into account various physical parameters and thus the output of the power generating generator is higher than the input power of the driving hydrogen combustion engine. Unit according to claims 1 and 2, characterized in that the system at three points energy can be removed in various forms and the self-powered operation is still guaranteed. Thus, the reduction of mechanical energy through the transmission, the decrease of electrical energy at the generator, as well as the decrease of chemical and simultaneously storable energy in the form of hydrogen is possible. Aggregate, according to claims 1-3, characterized in that no claims to the water quality must be met, since the electrolysis for externally supplied water is cleaned before any use by a built-in filter and thus the use of contaminated and salt water allows. Unit, according to claims 1-4, characterized in that on the control and monitoring unit influence on the amount of energy to be produced can be taken. Aggregate according to claims 1-5, characterized in that by the energy amplification of the part one of the aggregate, hydrogen is produced by means of electrolysis, without the expenditure of primary energy or the use of renewable energy, which must be supplied from the outside. Unit, according to claims 1-6, characterized in that the water vapor produced during the combustion of hydrogen is collected and is converted by a cooling unit back into the liquid state and is passed through a return line to the water tank.

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