DE3339842A1 - GAS COMBUSTION ARRANGEMENT - Google Patents

Abstract

Process and plant for producing energy by combustion of gas, enabling a combustion without formation of residues with a high efficiency and characterized in that a mixture of air and hydrogen is discontinuously burnt in a combustion chamber (14) which remains always open on one side, the exhaust gas being supplied to a heat exchanger (16) in order to heat and vaporize the liquid contained in said exhaust gas. It is possible to use this steam directly to produce electric energy.

Description

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Engelbert Frank
Bahnhofstrasse 26-28
6467 Hasselroth 2

Gas combustion arrangement

The invention relates to a gas combustion arrangement comprising a gas nozzle, a combustion chamber and a gas outlet pipe.

There are known gas combustion arrangements which work with coal, oil, propane gas or the like. When burned arise Residues, some of which lead to considerable environmental pollution. When using oil as fuel also occurs The disadvantage is that you are dependent on the oil-producing countries, so that you have to look for possibilities with Natural raw materials that are available to everyone in sufficient quantities, gas combustion arrangements for To make available.

The object of the present invention is to design a gas combustion arrangement of the type described above so that under The use of sufficient raw materials is given a high degree of efficiency, with the combustion leaving no residue should take place.

The object is achieved according to the invention in that a hydrogen-air mixture is used as the gas, which via a flutter valve in 25

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the combustion chamber flows, and that the gas outlet pipe coaxially from a fluid receiving cylinder with at opposite ends existing inlet and outlet openings is surrounded.

By using the hydrogen-air mixture, a working medium is used that is sufficiently available stands. In addition, the mixture is burned without leaving any residue, so that environmental pollution is excluded. The one in the incineration Any energy released is then derived directly, preferably from the cylinder that carries water, in the cylinder even the water has already evaporated, so the steam is taken at the outlet end of the cylinder and used, for example, to generate others Types of energy such as electrical energy can be used. This itself can be used again to get water in To split oxygen and hydrogen, which in turn is used to operate the gas combustion arrangement according to the invention v / could earth.

The hydrogen itself can be mixed with the air in an antechamber that can be closed with a lid, one of which is on the periphery of a circle arranged holes, which can be closed on the combustion chamber side by sections of the flutter valve, the hydrogen-air mixture in the combustion chamber flows. The hydrogen itself is fed through a nozzle from the antechamber in the direction of the one in the bottom area Guided holes in order to entrain air at the same time, so that the desired hydrogen-air mixture get into the combustion chamber can. In order to achieve the desired mixing or admixture, in a further embodiment of the invention, the interior is the Antechamber in the direction of the holes, i.e. tapered towards the bottom area. In order to enable a simple, reproducible arrangement of the hydrogen nozzle in the antechamber, it has a thread in the middle having recess, into which an external thread having approach of the nozzle can be screwed. The ones present in the nozzle head Holes, each of which can have a diameter of approximately 0.3 mm, have a direction that corresponds to the direction of the holes in the bottom area corresponds to the antechamber.

In order to be able to initiate the combustion process, is in the combustion chamber Arranged a spark plug, which consists of a tungsten wire connected to a voltage source. As soon as the hydrogen-air mixture flows into the combustion chamber and is ignited by the glowing tungsten wire, the hydrogen-air mixture burns, whereby the flutter valve rests against the holes in the antechamber. The burned gas can come out of the gas outlet pipe flow out and gives off its energy to the fluid flowing through the hollow cylinder. At the same time, there is a negative pressure in the Combustion chamber, which opens the flutter valve. This allows the hydrogen-air mixture to flow into the combustion chamber again, to be re-ignited there. For this, however, it is not necessary for the spark plug to continue to be connected to a voltage source connected. Rather, that is enough through the previous combustion process temperature prevailing in the combustion chamber in order to reignite the hydrogen-air mixture. As a result, runs the combustion process stops automatically and is only interrupted when there is either no more hydrogen or no more air in the Antechamber flows. The latter can be achieved in that the antechamber is closed by the lid.

The gas combustion arrangement according to the invention not only works with the almost inexhaustible raw material water, but also enables it also a clean, residue-free incineration that does not pollute the environment.

Further details, advantages and features of the invention emerge from the preferred exemplary embodiment shown in the drawing.
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Show it:

I shows a combustion arrangement in side view, partially broken away,
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Fig. 2 is a section along the line 2-2 in Fig. 1 and
3 shows a flutter valve.

1 shows a gas combustion arrangement 10 which essentially consists of an antechamber 12, a combustion chamber 14 and a gas outlet pipe 16. The gas outlet pipe is ί. ·. ■ £ * - * al surrounded by a cylinder 18 carrying a fluid such as liquid, preferably in the form of water, which has an inlet opening 20 and an outlet opening 22 for the fluid in its end regions. In the combustion chamber 24 there is also a spark plug 2ί, which in the exemplary embodiment comprises a tungsten wire 26 protruding into the combustion chamber 14 and which is brought to glow via a voltage source, not shown.

In the transition area between the combustion chamber 14 and the prechamber 12 there are continuous recesses 32, which in the Bottom area 30 of the antechamber 12 are embedded. These holes 32 can be on the combustion chamber side 14 of sections 34 of a flutter valve 28 are locked. This flutter valve 28 is preferably made of titanium, so as not to be even at high combustion temperatures To show signs of fatigue.

A nozzle 36 also extends from the bottom area 30 of the antechamber 12, Via which hydrogen can pass through recesses 38 into the antechamber 12 in the direction of the holes 32, so that these then come together with which air entrained via the opening 40 of the antechamber 12 can flow into the combustion chamber 14. The opening 40 is optionally can be closed with a cover 42 in order to be able to prevent the combustion process in the combustion chamber 14. Furthermore is it can be seen that the interior of the antechamber 12 extends to the bottom area tapered towards.

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The gas combustion arrangement 10 according to the invention now works as follows. Hydrogen is supplied via a line 44 via the nozzle head 36 and the recesses 38 present in these in the direction of the holes 32 present in the bottom 30 of the antechamber 12. Simultaneously Air flows through the opening 40 into the prechamber 12. This hydrogen-air mixture reaches the combustion chamber through the opening 32 14 · There an explosive combustion of the mixture takes place, which is initiated by glowing tungsten wire, which leads to Beginning of operation of the gas combustion arrangement 10 must be connected to a voltage source. Due to the explosive During combustion, the sections 34 of the flutter valve 28 are pressed against the openings 32. As a result, a further mixture of hydrogen and air can be used do not flow into the combustion chamber 14. Rather, the burned gas reaches the outside via the gas outlet pipe 16. It will «Energy delivered to the fluid present in the hollow cylinder 18, if the fluid is water, for example, it becomes because of the energy given off heated so that it evaporates. Evaporated water then passes out of the opening 22, for example a generator, a ^ To drive a turbine or the like.

While the burned gas is discharged, the ^ Combustion chamber 14 a negative pressure. This negative pressure causes the Flutter valve 28 and thus its radial sections 34 are lifted from the openings 32. As a result, a further mixture of hydrogen and air can be used get into the combustion chamber 14 to be reignited there. However, the tungsten wire 26 is not required must be connected to a voltage source, as a. due to the temperature caused by the previous combustion Ignition is generated automatically. This process runs continuously, as described, and can either be done by shutting off the The supply of hydrogen or by closing the antechamber 12 by means of the cover 42 can be prevented.

Claims (5)

·· I ■ 9 I. > I suffered • · I Engelbert Frank
Bahnhofstrasse 26-28
Hasselroth 2 Patent claims: Gas combustion arrangement comprising a gas nozzle, a combustion chamber and a gas outlet pipe,
characterized, that a hydrogen-air mixture is used as the gas, which flows through a flutter valve (28) into the combustion chamber (14), and that the gas outlet pipe (16) coaxially of a cylinder (18) which receives a fluid and is provided at opposite ends Inlet and outlet openings (20, 22) is surrounded. 2. Gas combustion arrangement according to claim 1,
characterized, 'That the hydrogen can be mixed with the air in an antechamber (12) which can be closed by a cover (42), from which above holes (32) arranged on a circular periphery, which can be closed on the combustion chamber side by sections (34) of the flutter valve (28), the hydrogen-air mixture flows into the combustion chamber (14).
20th 3. Gas combustion arrangement according to claim 1,
characterized, that a nozzle (36) emitting the hydrogen into the antechamber (12) has outlet openings (38), the direction of which is towards that of the Holes (32) aligned. • · I •> 1 • »I I > · 1 4 I. ■ ■ J - 2 - 4 gas combustion device according to claim 1, characterized, that the interior of the antechamber (12) tapers in the direction of the holes (32). 5. Gas combustion arrangement according to at least claim 3, characterized, that the nozzle (38) has in the center a thread having a shoulder, which can be included in the .bottom area (30) of the antechamber (12) XO '' - '' - ■ '"-'."'■', -. - - '-' '6.', ^ Gas combustion arrangement according to claim 1, "-; ' .characterized, ; ' , "'that, in the combustion chamber (14') a W-wire is placed as a glow plug- / ' net is. '*