FR3019167A1 - DEVICE AND METHOD FOR PRODUCING FLAMMABLE GAS FOR EXPLOSION ENGINE - Google Patents

Abstract

The invention relates to an onboard device for implementing a chemical process for producing a flammable gas such as hydrogen, in order to optimize the efficiency of a motor fueled with hydrocarbons. This device is unique in that it comprises a container (1), a lid (2), an inlet (3), an outlet (4) and a tube (5) connected to the container. inlet port (3) and located inside the container (1). The invention also relates to a chemical process for producing hydrogen comprising the steps of: a) contacting a liquid and a solid that are capable of reacting with one another to produce a flammable gas (b) agitation of the liquid and / or the solid by means of a gas flow; and (c) release of the flammable gas. Finally, the invention also proposes a kit that can be adapted to an explosion engine.

Description

The present invention relates to an on-board device for implementing a chemical process for producing a flammable gas such as hydrogen, with a view to optimizing the operation of a flammable gas. efficiency of a motor fueled with hydrocarbons.

BACKGROUND OF THE INVENTION It is known that the addition of hydrogen makes it possible to optimize the combustion of hydrocarbons and to minimize their consumption. Currently known processes are based on electrolysis and require the supply of electrical energy, which reduces their performance. SUMMARY OF THE INVENTION The present invention aims to optimize the combustion of fuels used in explosion engines. According to the invention, this object is achieved by a device comprising a container, a lid, an inlet orifice, an outlet orifice and a tube connected to the inlet orifice and located inside the container. . Advantageously, the container contains a liquid and a solid capable of reacting with each other to produce a flammable gas. The invention also relates to a method for producing hydrogen comprising the following steps: a) contacting a liquid and a solid capable of reacting with each other to produce a flammable gas B) agitation of the liquid and / or solid by means of a gas flow and c) release of the flammable gas. This process has the particular advantage of not requiring any external energy input. In particular, it works without electrical energy. The purpose of the device and method of the present invention is to reduce fuel consumption, to reduce CO2, CO, nitrogen oxides, unburned as well as other harmful gases resulting from the production of fuel. hydrocarbon combustion. The device and method of the present invention have the advantage of improving engine performance, in particular by producing more power for the same amount of fuel consumed. The device and the method of the present invention also make it possible to limit engine fouling. Fouling of the engine can be further reduced by the better combustion of hydrocarbon residues in the cylinders. In fact, the method and apparatus of the present invention perform a cleaning of the engine. This has the effect of preserving the characteristic performance of the engine. In the method and the apparatus of the present invention, hydrogen is produced "on demand". More particularly, the amount of hydrogen produced is negligible when the engine is idling, or when it is off. The amount of hydrogen produced increases with high power demand. The higher the engine speed, the greater the hydrogen production. Other features and advantages of the invention will now be described in detail in the following description 2 which is given with reference to the appended figures, which show schematically: FIG. A: the device of the invention connected to a motor explosion equipped with a turbocharger having an air inlet, a compressed air flow outlet and an exhaust gas outlet; - Figure B: an exploded view of a container, a lid, a submerged tube, a filter and a filter holder, constituting a device according to the invention; Figure C1 is a perspective view of an embodiment of a lid; FIG. C2: a front view of the cover of FIG. Figure C3 is a sectional side view of the lid of Figure 1C; - Figure D: the device according to the invention, connected to the intake of a motor not equipped with a turbocharger; and FIG. E: a device according to an advantageous embodiment of the invention. DETAILED DESCRIPTION OF THE INVENTION The device of the present invention comprises a reservoir (1) containing a liquid and a solid immersed in this liquid or in contact with this liquid. The reservoir or vessel (1) is preferably cylindrical and advantageously transparent so as to allow the gaseous releases produced by the contact of the solid and the liquid to be observed. According to a particular embodiment of the invention, the reservoir (1) consists of a rigid material, resistant to shocks and at high temperatures, preferably up to at least 120 ° C. The reservoir (1) consists for example of a plastic polymer 3, possibly reinforced by the inclusion of fibers or other components. An example of an advantageous plastic polymer is ABS or poly (acetonitrile-butadiene-styrene). The container (1) has a variable volume depending on the quantity of hydrogen to be produced. The volume of the container (1) varies from 0.3 liter to 15 liters. It is more particularly between 0.6 and 12 liters. Particular examples of embodiment involve volumes of about 1 liter, 2 liters, 4 liters, 6 liters or 10 liters. The solid may be in the form of metal platelets, suspended particles, or granules. The solid is preferably in the form of platelets whose length can be up to about 45 mm and is preferably between 20 and 40 mm, more preferably between 25 and 35 mm. The plates measure in particular 30 mm long. The width of the wafers can be up to about 20 mm and is preferably between 8 and 20 mm and more preferably between 10 and 15 mm. The pads measure in particular 12 mm wide. The thickness of the wafers may be up to about 15 mm and is preferably between 10 and 15 mm, more preferably between 1 and 2 mm. The platelets in particular have a thickness of about 1.8 mm. The contact area of a wafer with the liquid can be up to 2000 mm 2 and is preferably between 400 mm 2 and 1800 mm 2 and more preferably between 800 and 900 mm 2. A wafer usually weighs about 1 gram. 4 The number of pads used depends on the type of vehicle and its engine. The number of solid platelets immersed in the liquid generally varies from 1 to 100, preferably from 5 to 50. The number of platelets increases proportionally with the volume of the liquid. In general, the mass of solid immersed or in contact with the liquid is between 10 and 30 grams per liter, preferably between 15 and 25 grams per liter of liquid.

According to an advantageous embodiment, about 20 grams of solid are used per liter of liquid. The proportions of solid with respect to the liquid can be adapted according to the particular conditions of use. Solid platelets are usually immersed in bulk in the liquid. According to an embodiment that is particularly suitable for larger motors, the wafers can be grouped together to form a cube (or parallelepiped) of solid, or a piece of solid with a thickness substantially greater than that of a wafer. Alternatively, the platelets may be partially or completely replaced by compact cubes (or parallelepipeds) of solid, of comparable or identical composition.

According to one embodiment, it is possible to use both platelets and cubes (or parallelepipeds) of solid, in all proportions, according to the needs. The solid generally contains mainly magnesium. It may also contain other light metals. The solid advantageously contains more than 90% magnesium. Ideally, the amount of magnesium in the solid is greater than or equal to about 95%. The liquid is usually an aqueous solution of hydrogen chloride. It can also contain methanol, in variable proportion. The volume of methanol then preferably represents at most 50% of the total volume of the liquid. All amounts of methanol less than 50% of the total volume are usable according to the specific needs of the user. Alternatively, the methanol may be replaced in whole or in part by another alcohol miscible in water. Examples of water-miscible alcohols are ethanol, or possibly commercially available antifreeze products. The concentration of hydrogen chloride in the liquid is generally between 0.05 and 1.5 mol / l. It is preferably between 0.15 and 1.5 mol / l and is in particular of the order of 0.3 mol / l. Such low concentrations have the double advantage of being low-risk and of causing only slow and slow consumption of platelets. The volume of liquid varies according to the type of vehicle and its engine. It is generally between 0.3 liter and 12 liters, preferably between 0.6 and 7 liters. The tank (1) is equipped with a lid (2) for sealing the container. A deformable seal capable of filling the small gaps can advantageously be placed between the reservoir (1) and the cover (2) to improve the seal. A seal commonly used for this purpose can be adapted for the present invention. In a particular embodiment, the seal is made of polymer, for example silicone, and ring-shaped or toric. The lid (2) is generally provided with an inlet (3) and an outlet (4). The inlet port (3) is connected to a tube (5) to be immersed in the liquid inside the tank (1). The submerged tube (5) is open at its lower end so as to pass a gaseous stream, generally air, possibly compressed, through the liquid to react with the solid. The submerged tube (5) can also be pierced with lateral orifices 10 making it possible to optimize the diffusion of the gaseous flow through the liquid present in the container (1). The submerged tube (5) is generally made of plastic material, preferably transparent PVC. The outlet orifice (4) is connected to the inlet port 15 of the engine (6), either directly or via the line (7) connecting the turbocharger (8) to the engine. In the latter case, the inlet (3) and outlet (4) ports are connected to the line (7) by the pipes (9, 10), which can be rigid or flexible, and whose diameter is adapted. the necessary flammable gas flow, usually hydrogen. This diameter is generally between 3 mm and 20 mm, preferably between 5 mm and 15 mm. Depending on the motorization and requirements, the diameter of the pipes (9, 10) may be, for example, about 6 mm, 8 mm, 10 mm or 13 mm. The device of the present invention may also be equipped with a pressure control system and / or a safety valve (16). The security system (16) can be for example a manometer, allowing the reading of the pressure. The security system (16) can also be equipped with pressure adjusting means, such as a screw or a wheel. Ideally, the security system 7 (16) allows the automatic evacuation of gases in overpressure in the container (1). The gases are generally considered to be in overpressure when they have a pressure greater than 5 bars. The security system (16) is advantageously adjusted to evacuate the gases when the pressure reaches about 25 bar. Other security system trigger thresholds may be applied depending on device characteristics, applicable standards, or particular modes of use of the present invention. The device may also be equipped with at least a second tank (17) (see Figure E) whose input is connected to the outlet of the first tank and whose output 15 is connected to the line (7) connecting the turbocharger (8) to the engine inlet (6). This second tank may alternatively be equipped with an open tube at its lower, comparable end or tube (5) of the tank (1) and contain a liquid and a solid comparable or identical to the liquid and solid used in the tank (1). ). In a preferred mode of operation, the second reservoir remains empty and has the function of only storing the gases produced in the reservoir (1). Thanks to such a series arrangement, visible in FIG. E, it is possible to produce a larger quantity of hydrogen, which is particularly useful in the case of a punctually high demand. According to an advantageous embodiment, the cover (2) is provided with a filter (11) preferably comprising non-woven fibers, such as cotton, wadding, or other comparable plant fibers. The lid may furthermore also be provided with a filter support (12) for the filter (11). The lid (2) is, as such, object of the invention. An example of a preferred cover is shown in FIGS. C1 to C4 where an adjusting member (13) can be seen to adapt the flow rate of the gaseous flow (for example air) enriched in flammable gas (for example). example hydrogen) to the engine inlet (6). The adjustment member (13) therefore allows adjustment, generally manual, of the gas flow rate according to the particular characteristics of the engine. This adjustment member may be for example a screw, progressively obstructing the outlet orifice (4). The adjusting element (13) is preferably of conical or frustoconical shape. Preferably, the lid is further equipped with a connector (14) of specific diameter and preferably made of copper. The diameter of this copper connector varies depending on the motorization and use. It is preferably between 1 mm and 15 mm. In specific embodiments, the connector (14) may have a diameter of about 2mm, 6mm, 10mm or 12mm. As can be seen in Fig. D, the output of the device is connected to the engine inlet (6). According to an advantageous embodiment, the output of the device is connected to the line (7) connecting the turbocharger (8) to the intake port of the engine (6) upstream of a cooler (15) intended to lowering the temperature of the mixture of compressed air and hydrogen produced by the device. Ideally, the mixture of air and hydrogen produced by the device of the present invention is dispensed to the engine at a temperature substantially equal to that of the outside of the vehicle. The subject of the present invention is also the chemical process for producing hydrogen, described by the following reaction: Mg + 2 HCl H> MgCl 2 + 2 in which the magnesium comes from the solid contained in the reservoir (1) and HCl comes from liquid also present in the tank (1). The reaction takes place spontaneously on the surface of the solid, exothermically. The production of hydrogen varies according to the flow rate of gas flow, generally air, flowing into the liquid of the container (1) by the submerged tube (5). The flow of gas flow is zero when the engine is stopped. In this case, the production of hydrogen is negligible. The gas flow rate increases with the engine speed and promotes the reaction through the bubbling of this flow in the liquid element, which causes agitation promoting the chemical reaction. Hydrogen production increases with engine speed. Magnesium is present in metallic form, substantially pure. Alternatively, magnesium is associated with other elements, in the form of alloys or conglomerates. The hydrogen chloride may be in excess with respect to the stoichiometry of the reaction indicated above. The chemical process of the present invention comprises the steps of: - bringing the solid (eg magnesium) into contact with the liquid (eg aqueous solution of hydrogen chloride), - starting up the engine to produce a flow of gas flow (eg, air) into the reaction medium. The release of the flammable gas (for example, hydrogen) in the form of gas. The flammable or explosive gas produced is injected into the engine inlet through the pipe (7).

According to another aspect, the present invention also relates to a kit easily adaptable to commonly marketed motors. This kit comprises a container (1) optionally associated with at least one second container cf. Fig. E, a cover (2), an inlet (3), an outlet (4), a tube (5) connectable to the inlet (3) and container (1) and optionally a filter (11) for the outlet (4) and a filter support (12). According to an advantageous embodiment, the kit according to the invention further comprises a refill comprising a certain amount of liquid and a certain amount of solid packaged separately from one another. The kit may additionally contain connection hoses (9, 10).

The refill makes it possible to replace the corresponding elements in the container (1), once used. The refill can be marketed independently of the device described above. Refill, including the separately packaged solid and liquid, is also an object of the invention as such. Any internal combustion engine may be equipped with the device that is the subject of the present invention. The vehicles concerned include road, river or sea transport vehicles as well as airplanes, helicopters and similar motorized vehicles. Road transport vehicles are preferably concerned by the subject of the present invention. They include light tourism vehicles, heavy goods vehicles, motorized two-wheelers. Any type of internal combustion engine may be equipped with the device that is the subject of the present invention, whether of the diesel, gasoline or LPG type. The term "fuel" is understood to mean the hydrocarbons generally used to supply combustion engines from petroleum or biological products. Fuels include, for example, gas oil, gasoline, LPG, kerosene, as well as products intended for boat engines, biofuels, and fuels derived from 10 bacteriological productions. Alternatively, several devices can be installed in parallel, especially in the case where the engine contains several intake ducts. 12

Claims (7)

1. A device for producing hydrogen, comprising a container (1), a lid (2), an inlet orifice (3), an outlet orifice (4) and a tube (5). ) connected to the inlet (3) and located inside the container (1), which container (1) contains a liquid and a solid capable of reacting with each other to produce water. 'hydrogen. 10 2.- Device according to claim 1, wherein the inlet port (3) and the outlet (4) are located on the cover (2). 15 3.- Device according to claim 1 or 2, wherein the cover (2) is further provided with a flow control member (13) through the outlet (4). 4.- Device according to one of claims 1 to 3, wherein the lid (2) further comprises a copper pipe (14) connecting the outlet (4) and the adjusting member (13) . 5. Device according to one of claims 1 to 4, wherein the liquid comprises hydrogen chloride. 6.- Device according to one of claims 1 to 5, wherein the liquid comprises an aqueous solution of hydrogen chloride. 30 7.- Device according to claim 6, wherein the concentration of hydrogen chloride in the liquid is between 0.05 and 1.5 mol / l. 13.- Device according to one of claims 1 to 7, wherein the solid contains magnesium. 9.- Device according to one of claims 1 to 8, wherein the solid comprises platelets each having a contact area of up to 2000 mm2. 10.- Use of the device according to claims 1 to 9 in a motor vehicle explosion. 11.- A combustion engine equipped with a device according to one of claims 1 to 9, the outlet port (4) being connected to the inlet port (6) of the engine. 12. A chemical process for producing hydrogen comprising the steps of: a) contacting a liquid and a solid capable of reacting with each other to produce hydrogen, b ) agitation of the liquid and / or the solid by means of a gas flow and c) release of hydrogen. 13. The chemical process of claim 12, wherein the liquid comprises hydrogen chloride. 14. The process of claim 12 or 13, wherein the liquid comprises an aqueous solution of hydrogen chloride. 14. A process according to claim 14, wherein the concentration of hydrogen chloride in the liquid is between 0.05 and 1.5 mol / l. 16. The chemical process according to one of claims 12 to 15, wherein the solid comprises magnesium. 17. The chemical process according to any one of claims 12 to 16, wherein the solid comprises platelets each having a contact area of up to 2000 mm 2. 18. The chemical process according to one of claims 12 to 17, wherein the gas stream is an air stream, possibly compressed. 19.- Use of the method according to claims 12 to 18 in an internal combustion engine. 20.- Kit adaptable to an internal combustion engine, in particular a vehicle, comprising a container (1), a lid (2), an inlet (3), an outlet (4), a tube ( 5) connectable to the inlet (3) and can be disposed within the container (1) and optionally a filter (11) for the outlet (4) and a filter support (12). ), and a refill including a liquid and a solid separately packaged from each other, the liquid and the solid being capable of reacting with each other to produce hydrogen. 30 15