DE3037129A1 - Ozone generator operating by electrical discharge - has metal-coated dielectric serving as anode to add ozone to air passing to IC engine - Google Patents

Abstract

An ozone generator (3) is located in the air inlet line (1) between the air drier (8) and the air filter (2). The inlet line has a spiral plate to cause eddying or turbulence in the incoming air. Alternatively, the ozone generator is connected to the air inlet line via a hole passing through their adjacent walls. The ozone generator consists of a stainless steep casing acting as cathode and enclosing a dielectric coated in metal acting as anode. The air gap between the dielectric and the casing forms the discharge space. Air is admitted radially into the discharge space and the ozone/air mix passes radially out of the space at the opposite end to the air inlet. Cooling air is allowed to flow axially through the generator. The ozone generator, the drier and the air filter may form a single unit. The advantage lies in greater efficiency through more complete combustion.

Description

Other methods, such as injections, for example

of water vapor in the combustion chamber, could those put in it Not fulfilling hopes.

It is known from US-PS no. 3,157,172 the attempt to improve the Combustion process in gasoline engines with the help of ozone in this Patent specification uses ozone for combustion caused by sparking in the ignition distributor so arise. Since the discharge surfaces of the Kcnto! 'tc in the ignition distributor are much too small, ozone quantities, which are created in the air volume of the ignition distributor, never sufficient to be effective in a gas-air mixture. Possibly arising In addition, ozone would immediately decay again, since only the abrasion of the contacts hsetalls.ub, which has a catalytically decomposing effect on ozone, in the same way as well as the presence of grease, condensation and other contaminants. the is aimed at improving the combustion process according to this patent specification not achievable with the device described.

It is the object of the present invention to address the indicated disadvantages to fix with simple and less complicated constructive means and the Efficiency of energy conversion in combustion processes in fuels improve so that the fuel reserves still available can be used to the maximum and to decisively improve the exhaust gas values of combustion gases.

According to the invention the object is achieved in that the Atmospheric oxygen used for combustion before the formation of ignitable gas mixtures at least partially undergoes a structural transformation and as atmospheric oxygen-ozonoemic dem Fuel is supplied. This is achieved by arranging an ozone generator in this way is that, if necessary, the suction areas via an additional supply line Combustion chamber and its gas supply are supplied with a stable air-oxygen-ozone mixture will. One such arrangement is Device for energetic processing of fuel mixtures through structural transformation of atmospheric oxygen for intensification of combustion processes.

The invention relates to a device for energetic Processing of fuel mixtures, whereby the for a subsequent combustion Intended atmospheric oxygen due to strong electrical discharges partly a structural change experiences, which creates ozone, and thus an energetically enriched volume of air is provided for the combustion process.

As a result of the constantly increasing fuel consumption and a worrying one The shortage of crude oil is becoming the demand for energy-saving measures More urgent, the prerequisite for such measures is the cost-effective technical Feasibility in connection with the most elegant possible structural design, in order to improve the state of the art significantly.

Bekj-nnt is the latest constructive measure to save fuel, It is based on the idea of compressing the fuel higher than before in order to thus increasing the thermal efficiency. However, this must be a better efficiency be bought with more robust machine constructions, i.e. more expensive material and therefore significantly more weight. Such an emergency solution could only be through one further extreme price increases on the oil market will be justifiable. But she is standing also in contradiction to the desire to consume raw materials and lighter machines to build.

The often propagated energy saving by means of perfectly functioning Electronic ignition systems, as they are now offered, hardly affects on the ignition ripple of the gas-air mixture. Even if the firing order and the Ignition timing is adjusted more precisely from the fuel necessary for the performance hardly anything is saved.

suitable to intensify combustion processes in combustion chambers and while largely eliminating harmful additives that remain in the exhaust gas and complete combustion largely without the formation of harmful by-products, like nitrogen oxides.

The ozone enrichment of atmospheric oxygen is done with a special suitable ozone generator, which due to its special construction the generation of sufficient amounts of ozone by partially reversing the structure of the proportionate oxygen in the air, guaranteed. So the task, the efficiency to improve the energy conversion during combustion processes in fuels only through the use of a suitable ozone generator and attachments can be reached at a suitable point in front of the combustion chamber.

The ozone generator is in the power supply of an internal combustion engine or system integratorber. There is therefore no need for an additional external supply with operating energy.

The ozone enrichment takes place in a known ':: ice, for example by means of a UV tube, which due to its special coating made of synthetic quartz glass is permeable to full lengths, which ensure strong ozone formation.

For example, the E 300 device from BLV-Licht- und Vakuumtechnik, Steinhöring near Munich, suitable with a power of 12 watts.

Tubes with silent discharge (spark gap) are particularly suitable, which can be operated economically with a high ozone yield. Of the High-frequency alternating current for their operation can be obtained from the electrical supply a motor vehicle as well as from the high-voltage generator of an oil heater will. For example, the tube 3020-GL 44 from Argentox, Hamburg, is suitable. which delivers 22 g ozone / m3 air If necessary, you can also Drying units known per se for drying that to be enriched with ozone Gas be provided, for example electronically or chemically or by atmospheric Drying, since the ozone generator's performance with spark gap is present when moisture is present falls off. Such drying units, using compressed air, are found in diesel engines already exists. In the case of gasoline engines, the air heated by the manifold can be dried will. A joint driven by the belt and possibly by the a regulator controlled compressed air dryer provide the drying.

In one embodiment of the invention, it is proposed that the sucked Swirling atmospheric oxygen. This can be done using vortex plates or vortex chambers in the Filter or suction area can be achieved so that the enrichment of the ozone in the air stream is facilitated and improved. By enriching the ozone in the oxygen in the air the ignitability of the combustion mixture increases, and so does the combustion process is intensified. However, better combustion reduces consumption.

The resulting oxygen radicals also force it an afterburn effect.

Another embodiment of the invention is that for reinforcement the ozone generation, the ozone-forming tubes are arranged in a bundle, namely like this offset against each other so that the radiation of the tube bundle is continuous.

It can also prove expedient and advantageous to use ozone generators to combine on the basis of UV and silent discharge.

Another advantageous embodiment of the invention consists in that the intake port on the air filter is assigned a second intake port in parallel is, but the air inlet opening of the second nozzle is much smaller and is closed at the end. In this arrangement the ozone generator is in the second Housed intake manifold. Both However, nozzles are by means of a Nozzle connected to each other on the side. The intended effect is that the air flow of the nozzle with the larger inlet cross-section the one enriched with ozone Entrains atmospheric oxygen from the nozzle with a smaller inlet cross-section. At this Arrangement is achieved that the ozone formation with a certain time delay takes place more thoroughly in a smaller volume of air with a calmer flow.

The ozone generator is preferably installed in motor vehicles in such a way that that the air flow of the driving wind through a filter into the electrical discharge space of the cylindrical ozone generator for structural conversion of the proportion of atmospheric oxygen steadily flowing. It consists essentially of a tubular outer Stainless steel jacket as cathode, with the two nozzles for the gas inlet and gas outlet, in which a likewise tubular dielectric made of glass is arranged.

The structural conversion of the proportion of atmospheric oxygen, i.e. the ozone-generating one Discharge takes place in the surrounding air gap between the outer cathode and the inner dielectric instead, the dielectric serving as an anode carrier and on its back, the counter electrode is applied in the form of a metal layer is. The discharge space is insulated at the front and rear by means of two Teflon seals and hermetically sealed. An air-cooled ozone generator is preferred, The cooling air flow axially flows through the interior of the ozone generator, in which at the same time strong electrical discharges in addition to the actual ozone generation arise in the ring-shaped discharge space, thus also arises in this area Ozone, which can also be made usable.

The side of the dielectric facing the cathode can be used for reinforcement the intensity of the ozone generation.

The generator heats up due to peak discharge, which in certain circumstances Any necessary drying of the air flow to be ozonized is facilitated or even make it redundant.

The ozone generator used according to the invention already works in conjunction with appropriately designed electronics, it is operationally reliable and successful in a motor vehicle. To the battery of a vehicle with a normal powered gasoline engine a voltage converter is connected, preferably of the type SW 220 L I2V = 220val, 220W from Grigelat in Rückersdorf / Nuremberg, which provides the required alternating current for a transformer that transforms this alternating current up to approx. 6-10 KV and thus ensures the energy supply of the ozone generator.

Tests and careful measurements have shown that during operation of the system, the carbon monoxide levels are extremely reduced and the fuel consumption is reduced.

The system can also be used in diesel machines7 Expensive catalytic converters, as recently provided, can then be dispensed with. The system also proved to be productive for gasoline engines in the enrichment of Fiager mixes, particularly excellent properties are also for example self-regulating processes: at increased speed the ozone generator becomes more Air oxygen supplied. The conversion rate atmospheric oxygen / ozone increases, and it does In contrast to normal conditions, more fuel is used when the speed is increased saved.

The structural peculiarity of the air-cooled ozone generator described reveals further, exclusive possibilities: For example, the anode consist of an oxygen yielding material, so that the available oxygen content increased in the air by more easily split off oxygen from another material will.

Increases in frequency are possible and desirable because they; inevitably a downsizing of the electronic equipment is made possible.

Direct current can also be used.

The invention is based on the embodiments shown in the drawings for example explained in more detail.

They show: FIG. 1 a section through the arrangement of the air filter and FIG Suction nozzle with ozone generator, Fig. 2 is a plan view of the parallel arranged Intake manifold with ozone generator.

3 shows a section through an ozone generator.

According to FIG. 1, an air filter 2 is stationary in the intake port 1 Ozone generator 3 (shown with its electrical connections 4) attached, their a spiral-shaped 'S, tirbelblech 5 is surrounded.

According to FIG. 2, the intake port 1 is assigned a port 6, which as an ozone generator 3 contains such a silent discharge and with the air filter 2 is connected to the intake port 1 via a connecting nozzle 7. Here protects the nozzle from moisture and offers good insulation options. At the air inlet a device for drying the incoming air can be provided.

According to FIG. 3, the ozone generator consists of the outer stainless steel housing 1 as the cathode, the dielectric 2, with an applied metal layer as the anode 13 and the air gap 14 in between as a discharge space for the structural transformation of atmospheric oxygen. The discharge space 14- is by means of two Teflon seals 5 hermetically sealed at its front and rear face. On the outside The stainless steel housing of the cathode 11 is the air inlet 16 to the discharge space 14 and the outlet nozzle for the air-oxygen-ozone mixture 17, as well as the mounting flange 18 and the ground connection 19. The electrical anode connection consists of a metal ring 20 with cable 21 leading to the outside. The air flow cooling the ozone generator flows through it axially the interior of the ozone generator 22, it is only through in the drawing small arrows indicated. Blank page

Claims (8)

Device for energetic processing of fuel mixtures through structural transformation of atmospheric oxygen to intensify combustion processes, Mixing device for energetic processing of fuel through structural transformation of atmospheric oxygen to intensify combustion processes, d u r c h e k e n n n z e i c h n e t that an ozone generator (?) in front of, in or is arranged on the air supply (1) of the internal combustion engine or system 2. Device according to claim 1, d u r c h g e k e n n -z e i c h n e t that the Ozone generator (3) arranged in front of, in or on the air filter (2) of an internal combustion engine is. 3. Apparatus according to claim 1 or 2, d a d u r c h g e k e n n z e i c h n e t that as an ozone generator a tube with silent discharge and / or a optical tube is used, possibly a drying device upstream is. 4. Device according to one of claims 1 to 3, d a -d u r c h g e (<e n n n z e i c h n e t that the ozone generator (3) axially on a spiral Viirbelblech (5) in the intake port (1) of an air filter that forms the air supply (2) is arranged. 5. Device according to one of claims 1 to 4, d a -d u r c h g it is not shown that the ozone generator is in one of the intake ports (1) associated second intake port (6) is arranged. 6. Device according to one of claims 1 to 5, d a -d u r c h g It is not noted that the intake port (6) is by means of an orifice (7) is connected to the intake port (1) or the air filter (2). 7, the method according to any one of claims 1 to 3, d a -d u r c h g e It is not indicated that a tube is used as an ozone generator in motor vehicles silent discharge and air cooling, preferably through a filter through the air flow the driving wind is used. 8. The method of claim 7, wherein the ozone generator is provided by the following Features excellent is an outer stainless steel housing (11) as a cathode with a (16) and outlet nozzle (17), a dielectric (12) with an applied metal layer as an anode (1?), an annular air gap (14) as an unloading space and an interior (22) for air cooling. 9, the method according to claim 8, d u r c h g e n nz e i c h n e t that of the cooling air space flow-through interior (22) of the ozone generator is designed as an intake port (1) and the outlet port (17) opens into the interior.