DE276633C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 276633 - CLASS 26 a. GROUP

ALFRED WILLIAM SOUTHEY in LONDON.

Patented in the German Empire on July 23, 1911.

It is known from oil or other liquid hydrocarbons in the fuel gas Way to produce 'that the oil ο. like. evaporated and part of the vapors (and as imperfectly as possible) is burned in order to use the heat generated to remove the remaining part to decompose the vapors and convert them into the form of a permanent gas. This gasification process can be in a closed

ίο Oil containers take place, which only with the required air supply openings, an oil supply line and a gas discharge needs to be; the discharge line of such gas generators has so far been direct connected to the prime mover to be fed.

According to the present invention, the gaseous Products are used before they are transferred to the prime mover to make them due to the intense heating during the gasification, at least the heat still inherent partly to promote evaporation directly to those in transition dispense liquid fuel. This is expediently done in such a way that the gas discharge line passes through or under the container is performed, in which the liquid fuel is evaporated and gasified.

This type of heat utilization initially has the advantage that it is caused by combustion part of the gasification flame maintained by the oil vapors has a lower amount of heat is withdrawn for the purpose of generating the vapors. As a result, it is also responsible for gassing The amount of steam to be sacrificed is correspondingly smaller in relation to the total amount of steam, and the gas produced is richer in still completely unburned components. before All things become, however, the temperature at the steam formation by the specified procedure significantly increased and thus given the possibility of higher specific vapors To create density. The increase in vapor density favors that at the meeting the same with the incoming air only an imperfect combustion, for example to carbon oxide, takes place, and it therefore also acts on the generation a gas with the highest possible calorific value; the higher the temperature of the vapors before they come under the action of the gasification flame get the easier, d. H. their decomposition and conversion also take place with all the less heat input into a non-condensable gas in front of you.

The new method can be used in any gas generator that works according to the principle stated at the beginning. On the drawing is for a more detailed explanation of the invention illustrates an embodiment of such a device

which the container in which the evaporation and gasification takes place, through a nearly up to the liquid level down hood is divided into two chambers, of which the outer one serves as a combustion chamber and the inner one as a gasification chamber; at the same time, the air inlet openings are in relation to the cross section of the exhaust duct chosen so large that the maintenance of atmospheric tension in the evaporation space is guaranteed. These bodies form however not the subject of the present invention.

The device consists of a circular metal housing L, inside which a second container or trough C is arranged, and which is closed on the top by a cover E which can be opened around the hinge E '. The fuel is fed to the trough C through the inlet line A, for example by means of a pump, the height of the liquid level being determined by the upper edge of the overflow line B in such a way that the amount required for the process is not significantly exceeded. A small transverse plate Ά 'is provided above the inlet line A in order to prevent the fuel introduced from splashing over.

The hood F arranged in the present exemplary embodiment is designed in the shape of a truncated cone and is surrounded by a cap G , the lower edge of which is connected to that of the hood. Air enters the outer chamber through the openings in the cover E , which are closed by the flap E ² . There is an annular wick D near the edge of the trough C

stores, which is used to ignite the fuel.

According to the invention, the discharge lines for the gases generated are now arranged in such a way that the latter are passed through or under the liquid container. For this purpose, the bottom of the trough C carries one or more tubes F ² , which are open at the top and bottom and penetrate the bottom of the vessel with the lower end. The upper end of the tubes pass through the hood F and protrude into the space enclosed by the cap G. In this way, a line or lines are created which lead from the inner chamber through the upper opening of the hood F into the cap G and from here by means of the tubes F ² into the space H of the container L located below the floor. This space is connected to the point of consumption by means of the pipe socket K

z. B. connected to the engine leading pipeline.

When using the hood F , which is not required per se, as mentioned, the device is expediently made so that the tubes F ² serve at the same time to carry the hood and the cap G; they are provided with approaches F ¹ for this purpose. This arrangement enables the hood to be easily removed for the purpose of cleaning.

The device works as follows:

As soon as the wick D is ignited and the suction effect begins by turning the machine on, air is initially passed through the channels through the channels at about atmospheric tension into the cavity of the cover E, i.e. the outer chamber, where it mixes with the vapors produced and maintains the combustion of the same . The flame generated is deflected by the air draft downwards towards the fuel in the container C and drawn into the hood F above the liquid level, where under its influence the conversion of the remaining vapors into a constant gas takes place, which together with the Combustion products passes into the space enclosed by the cap G.

From here the gases do not go directly into the exhaust line leading to the point of consumption, rather they are forced to flow through the tubes F ² and to pass into the chamber H formed below the fuel off trough, from which they are then passed through the line K to the machine will. When flowing through the tubes F ² and when brushing the bottom of the container, the hot gases give off some of their heat to the fuel being converted. The path of air and gases is illustrated in the drawing by arrows.

Incidentally, the engine exhaust can also be used in a similar manner to achieve this a regenerative heating can be used by also by or under the Fuel tank are guided.

Claims (2)

Patent-to sayings: i. Process for the production of gaseous fuels from liquid hydrocarbons or the like by combustion a part of the evaporated hydrocarbons, characterized in that the Gaseous products discharged from the container thereby promoting evaporation of the liquid fuel in the process of being converted is used in that it is passed through or under the container in which the liquid fuel is vaporized and gasified. 2. Apparatus for carrying out the method according to claim i, characterized in that the bottom of the container (C) for the liquid fuel is ^{penetrated by vertical tubular lines (F 2} ) which protrude with the upper end into the gasification chamber (G) and establish a connection between the latter and a space (H) located below the container bottom and connected to the outlet line (K) . For this purpose ι sheet of drawings.