DE102006038404A1 - Device for better combustion of fuels in combustion device, comprises container partially filled with distilled water, bubble forming device comprising multi openings, cathode, and tubular-shaped body sensor for measurement of ionization - Google Patents

Abstract

The device for better combustion of fuels in a combustion device, comprises a container partially filled with distilled water (2), bubble forming device (3) comprising multi openings, a cathode (4), and a tubular-shaped body sensor for the measurement of ionization. The bubble-forming device is arranged in radial manner, is connected together with star-shaped tubes, and consists of plate, which is provided with holes. The supply of air takes place in the middle region of the star-shaped tubes. The container is intended with a level measuring device (5) for the distilled water. The device for better combustion of fuels in a combustion device, comprises a container partially filled with distilled water (2), bubble forming device (3) comprising multi openings, a cathode (4), and a tubular-shaped body sensor for the measurement of ionization. The bubble-forming device is arranged in radial manner, is connected together with star-shaped tubes, and consists of plate, which is provided with holes. The supply of air takes place in the middle region of the star-shaped tubes. The container is intended with a level measuring device (5) for the distilled water. The star-shaped tubes are connected via a supply line with air delivery device and also an inner wall of the container. The star-shaped tubes are connected via a discharge line with air suction channel of the combustion device. The electrode, delivery air device, the sensor and the level measuring device are interconnected with data processing system (8). The size of the cross section of the openings of the star shaped tubes increases toward to the inner wall of the container. A level indicator is a component of the level measuring device. The container possesses a relief pressure valve above the water surface of the distilled water in the region of the wall. The tubular-shaped body sensor is a component of either exhaust airline or bypass line parallel to the exhaust airline. The conductivity is measured as measure of the ionization of air. A ventilator is present for the transport of ionized air in the exhaust airline or in the bypass line. The ventilator is interconnected with the data processing system. The container is connected with a receptacle for a gaseous or liquid medium by a flow-controlling device so that the medium is arrived into the distilled water. The medium controlling device is interconnected with the data processing system. The container and the bubble-forming device contain an electrically non-conductive plastic. The cathode is connected by a power adaptor with the data processing system. The data processing system is connected by an interface and a data network is connectable with another data processing system.

Description

The The invention relates to devices for better combustion of fuels in at least one combustion device.

Through the pamphlets DE 36 90 753 T1 (Method and apparatus for activating gasoline mixture) and DE 691 30 500 T2 (Device for ionization) solutions are known to optimally burn the respective fuel. For this purpose, the necessary combustion air including the fuel contained therein is activated or ionized. In the first solution, a capacitive component is connected to the secondary ignition circuit of an internal combustion engine with the electric ignition. This capacitive component causes the discharge to amplify and stabilize the electrical discharge phenomenon between the spark plug electrodes. This promotes destruction of air insulation and movement of ions of the gas mixture between the electrodes, with internal movement providing active energy for uniform flame kernel formation.

The second solution includes a resonance chamber in which ionization during the Combustion is carried out by homogenizing the firing process.

The Ionization causes in both solutions Improvement of the combustion and consequently an increase of the Combustion efficiency. At the same time, the amount of unburned gas reduced. In both variants, the ionization during the Burning produced in the combustion chamber itself, with an externally controlled influence not possible is.

Of the The invention defined in claim 1 is based on the object the burnout and thus the efficiency of the combustion of To improve fuels.

These The object is achieved with the features listed in claim 1.

The Facilities for better combustion of fuels in at least a combustion device are characterized in particular by a improved burnout and thus increased combustion efficiency from fuels. Advantageously, fuels are saved.

To are not complete in one filled with distilled water container a bubble-forming device and an electrode are arranged. The Bubble-forming device consists of a plurality of openings, arranged in a star shape and in the middle area of the star interconnected pipes and at least one over the Pipes arranged and with holes provided plate, wherein the supply air in the central region of star shape arranged pipes takes place. Here are the middle range of star shape arranged pipes over an air supply line with an air-supplying device and the free space between both distilled water and inner wall of the Container over one Exhaust duct with the air intake duct of the combustion device connected.

Farther is the container with a level measuring device for the distilled water provided and located in the air-bearing space to the water surface a sensor for measuring the ionization. The electrode, the air supplying device, the sensor and the level measuring device are interconnected with a control device. Air supplying facilities are for example either a known air-promoting Pump or over a valve controlled compressed air tank.

The Air gets over the connection to the bubble-forming device in the container. The Bubbles pass through the distilled water in the container, which the water surface burst. According to the rule of COEHN it becomes part of the charges separated and over the water surface there is a negative charge. The falling back to the surface Water is positively charged. To complement the ionization causing Electrons is a cathode at least partially in the distilled water. about the surface are thus negatively charged components of the air than in particular Oxygen ions. By connecting the room above the Water surface with the air intake duct of the combustion device reach the oxygen ions into the combustion air. The introduction of these negative ions leads to Reduction of binding forces in the fuel. Furthermore, the ions are advantageously carried out continue to introduce an activation energy and a combustion catalyst into the flame. For example, a continuous combustion to ensure, an activation energy of approximately 76 kJ / mole of fuel must be applied. This activation energy represents a loss and decreases the efficiency. With the addition of negative oxygen ions is only an activation energy of about 33 kJ / mol needed.

Furthermore takes place by the introduction of oxygen ions an optimization combustion, so less soot particles and carbon monoxide while saving fuel.

The promotion of the amount of air via the control in response to supplied ions, so that optimum combustion of the fuels is ensured. Fuels are fossil fuels, biofuels or synthetic fuels, either individually or in at least one combination.

advantageous Embodiments of the invention are in the claims 2 to 11 indicated.

The Size of the cross section the openings of the star shape arranged tubes of the bubble-forming device takes after the Further development of claim 2 in the direction of the inner wall of the container to. This advantageously ensures that predominantly only big bubbles arise. The size of the bubbles determines the height the ionization of the air over the water level in the tank. The ionization is greater for large bubbles.

To the embodiment of claim 3 is a level indicator a component of the level measuring device.

at Operation of the device for better combustion of fuels in at least one combustion device is distilled water in the container consumed. The level measuring device is used the control of consumption. This is still with the control device connected, so that an acoustic and / or visual signaling is possible. Thereby can simply limit values are signaled.

Of the container has according to the embodiment of claim 4 in the area the wall over the water level of the distilled water a pressure relief valve.

To The embodiment of claim 5 is the sensor for measurement the ionization of a tubular Body, the at least one component of either the exhaust duct or a Bypass line is parallel to the exhaust air line. This will ensure that ionized air passes through the tubular body. For investigation The ionization is advantageously the conductivity of ionized air as a measure of ionization measured.

In continuation is located in the exhaust air line or in the bypass line the embodiment of claim 6 advantageously a fan for transporting ionized air. Furthermore, the fan with the control device interconnected. This allows the flow of ionized Air in the tubular body as a sensor over be controlled by the fan.

Of the container is according to the embodiment of claim 7 with a container for a gaseous or liquid Medium over a flow controlling device connected so that the medium gets into the distilled water. Furthermore, that is the river the medium controlling device with the control device interconnected. This can improve the ionization of the air.

Of the container and the bubble-forming device exist after the development of claim 8 of an electrically non-conductive plastic. This advantageously provides electrical insulation.

To the development of claim 9, the electrode is a cathode, the above a power supply is connected to the control device. This will positively influences the inner education.

The Katode consists after the development of claim 10 advantageously made of copper or stainless steel.

The Control device is according to the embodiment of the claim 11 a data processing system. Furthermore, the data processing system via a Interface and a data network with at least one other Data processing system connected or connectable. This allows the Device for better combustion of fuels remotely controlled become. At the same time the data of this facility are queried remotely. This is done via the Data network a data exchange.

One embodiment The invention is illustrated in principle in the drawings and will be closer in the following described.

It demonstrate

1 a device for better combustion of fuels in at least one combustion device and

2 a component of the bubble-forming device in the container in a plan view.

A device for better combustion of fuels in at least one combustion device consists essentially of a not completely with distilled water 2 filled containers 1 , a vesicle-forming device 3 , an electrode 4 , an air-supplying device, a level measuring device 5 , a sensor 6 for measuring ionization, a connection to the air intake duct 7 the combustion device and a control device 8th ,

The 1 shows a device for better combustion of fuels in at least ei ner combustion device in a schematic representation.

fuels are fossil fuels, biofuels or synthetic Fuels each individually or in at least one combination.

The container 1 is not complete with distilled water 2 filled. In distilled water 2 In some areas there is an electrode, preferably made of copper or a stainless steel 4 as a cathode. The cathode itself has a power supply 9 for providing a voltage to the controller 8th connected. The container 1 preferably consists of an electrically non-conductive plastic.

On the bottom of the container 1 there is a bubble-forming device 3 , This consists of two components, which are arranged one above the other superimposed. The first component 10 consists of several star-shaped tubes 11 whose cavities over the middle area as a central part 12 connected to each other. The middle part 12 with the pipes 11 is with a pump 14 as an air supplying device. This ensures the supply of fresh air. The to the inner wall of the container 1 pointing ends of the pipes 11 are closed. In the walls of the pipes 11 are in the direction of the interior of the container 1 pointing and spaced apart openings 15 as a series of openings 15 brought in. The cross sections of the openings 15 become towards the inner wall of the container 1 greater. The bubble-forming device is made entirely of an electrically non-conductive plastic.

The 2 shows this part of the bubble-forming device in the container in a plan view in a schematic representation.

Above this component is at least one over the pipes 11 and perforated plate 10 arranged as a second component of the bubble-forming device (shown in the 1 ).

The pump 14 is with the control device 8th connected, so that over the conveyed air quantity the formation of the bubbles 13 in distilled water 2 is controlled.

The free space between both distilled water 2 as well as the inner wall of the container 1 is via an exhaust duct with the air intake duct 7 the combustion device connected. In the free space or the exhaust duct to the air intake duct 7 the combustion device is a sensor 6 arranged for measuring the ionization, which continues with the control device 8th is interconnected.

For measuring the fill level of the distilled water 2 is the container 1 with the level measuring device 5 Mistake. This is still with the control device 8th connected together. The level measuring device has a level indicator for the distilled water 2 , so that the fill level is visually controllable.

The container 1 indicates in the area of the wall above the water level of the distilled water 2 a pressure relief valve.

The sensor 6 for measuring the ionization is a tubular body, said tubular body at least a component of either the exhaust duct or a bypass line parallel to the exhaust duct to the air intake duct 7 is. In this case, the conductivity is measured as a measure of the ionization of the air passing through the tubular body continuously, clocked periodically or timed.

In one embodiment, a fan for transporting ionized air can continue to be located in the exhaust duct or in the bypass line to the control device 8th is interconnected. This can influence the ionized air flow.

In a further embodiment of the embodiment, the container 1 with a container for a gaseous or liquid medium, in particular oxygen, connected via a flow-controlling device so that the medium passes into the distilled water. The device controlling the flow of the medium is connected to the control device 8th connected together.

In a further embodiment of the embodiment, the control device 8th a known data processing system, for example in the form of a computer. The data processing system is connected via an interface and a data network with at least one other data processing system or connectable. As a result, all data of the device for better combustion of fuels can be queried remotely. Furthermore, a remote inquiry / remote control via a data exchange can take place.

Claims (11)

Means for better combustion of fuels in at least one incinerator, characterized in that incompletely with distilled water ( 2 ) filled containers ( 1 ) a bubble-forming device ( 3 ) and an electrode ( 4 ) are arranged that the bubbles forming device ( 3 ) of several openings ( 15 ), arranged in a star shape and interconnected in the central region of the star ( 11 ) and at least one above the pipes ( 11 ) and provided with holes ( 10 ), wherein the supply of fresh air in the central region of the star-shaped tubes ( 11 ), that the central region of the star-shaped tubes ( 11 ) via an air supply line with an air-supplying device and the free space between both distilled water ( 2 ) and inner wall of the container ( 1 ) via an exhaust duct with the air intake duct ( 7 ) of the combustion device are connected, that the container ( 1 ) with a level measuring device ( 5 ) for the distilled water ( 2 ), that in an air-bearing space downstream of the water surface, a sensor ( 6 ) for measuring the ionization is that the electrode ( 4 ), the air supplying device, the sensor ( 6 ) and the level measuring device ( 5 ) with a control device ( 8th ) are interconnected. Device according to claim 1, characterized in that the size of the cross section of the openings ( 15 ) of the star-shaped tubes ( 11 ) towards the inner wall of the container ( 1 ) increases. Device according to Patent Claim 1, characterized in that a fill level indicator is a component of the fill level measuring device ( 5 ). Device according to claim 1, characterized in that the container ( 1 ) in the area of the wall above the water level of the distilled water ( 2 ) has a pressure relief valve. Device according to claim 1, characterized in that the sensor ( 6 ) is a tubular body for measuring the ionization and that the tubular body is at least a component of either the exhaust duct or a bypass line parallel to the exhaust duct, wherein the conductivity is measured as a measure of the ionization of the air. Device according to claim 5, characterized in that in the exhaust duct or in the bypass line, a fan for the transport of ionized air is located and that the fan with the control device ( 8th ) is interconnected. Device according to claim 1, characterized in that the container ( 1 ) is connected to a container for a gaseous or liquid medium via a flow-controlling device so that the medium into the distilled water ( 2 ) and that the device controlling the flow of the medium is connected to the control device ( 8th ) is interconnected. Device according to claim 1, characterized in that the container ( 1 ) and the bubble-forming device ( 3 ) consist of an electrically non-conductive plastic. Device according to claim 1, characterized in that the electrode ( 4 ) is a cathode and that the cathode via a power supply ( 9 ) with the control device ( 8th ) connected is. Device according to claim 8, characterized in that that the cathode is made of copper or stainless steel. Device according to claim 1, characterized in that the control device ( 8th ) is a data processing system and that the data processing system is connected via an interface and a data network with at least one further data processing system or connectable.