DE347853C - Internal combustion turbine - Google Patents

Description

Internal combustion turbine. The invention relates to a brake power turbine. According to the invention, a fuel-air mixture is counteracted within a mixing chamber a fast rotating runner, which mixes fuel ' and air favors, and then forced to adhere to a narrow flow opening to ignite continuously on a protruding bead of the runner, whereupon the gas after expansion has taken place. The paddle wheel drives its rotation on the rotor transmits.

Before it acts on the turbine blade wheel, the gas can expediently in a manner known per se with high tension Steam are mixed, which can be produced in such a way that the highly heated rotor is made hollow and constantly injecting water into this cavity. Dur forming in the runner Steam is strongly compressed by centrifugal force before it escapes, so that it reaches a high voltage prior to its union with the gas.

In this way, the heat present in the cooling water is converted into energy implemented and used for work performance, and also the combustion gases due to the temperature equalization between steam and combustion gases on one of the Turbine material harmless temperature reduced.

The invention will be explained in more detail with reference to the drawing.

Compressed air of approximately 5 atm flows through a nozzle, i. Tension, before reaching the mixing chamber 3 from a number evenly on the turbine circumference distributed nozzles 2 picks up fuel and mixes with it. One side of the Chamber 3 is limited by a rotor g, which is running at high speed, for. B. Zooo turns in the minute, revolves and receives its drive from the turbine wheel 8. One Annular bead io of the rotor forms together with an opposing, fireproof Cladding a constricted narrow passage q. and because of the strong Erhitizun & "üs Runner's bead is put in red heat, the gas mixture ignites constantly on this bead. The gas then flows through the chamber 6 and through guide channels to the blades 7 of the turbine wheel 8 and sets this in rotation in a known manner.

The rotor g is hollow and has funnel-like annular channels ix and i3, which are connected to one another by openings 12. From one room 16 is injected into the ring channel ii water, which is in the highly heated rotor transformed into steam, which is forced outwards by centrifugal force, his Finds way through the openings 12 into the annular channel 13. This is where the steam gets through the centrifugal force a strong compression, after which he in the mixing space 6 on. that there existing back pressure expands. In the chamber 6 there is an intimate mixture of the high-tension steam takes place with the combustion gases and the overall mixture acts then on the turbine blades.

The water flow to room 16 can be controlled by a gate valve 17 regulate, which is set by a spindle 18 through the intermediary of the transmission ig can be.

If the turbine is to be started, then the ignition takes place of the gas mixture first through spark plugs 5, of which a corresponding number is evenly distributed around the turbine body, arranged and by any Power source can be fed from.

As soon as the machine has reached a sufficient number of drillings and the When the runner has the required heat level, the spark plugs can be switched off because then the gas mixture ignites continuously on the red-hot bead io.

Claims (1)

PATENT CLAIMS: i. Internal combustion turbine, characterized in that a fuel-air mixture within a mixing chamber (3) against. a rapidly rotating organ (g) flows and continuously ignites at a narrow flow opening created by the bead (io) of the organ (g). z. Turbine according to Claim i, characterized in that the fuel is sprayed through nozzles (2) against a rotating surface in order to achieve a fine distribution of the fuel and mixing of the same with the air. 3. Turbine according to claim i, characterized in that the combustion product is combined in the chamber (6) with high-pressure steam, whereupon. the cooled total mixture acts on the blades of the turbine wheel. q. Turbine according to claims i and 3, characterized in that the steam is formed by injecting water into a cavity of the strongly heated rotor (g), in which it is highly compressed by centrifugal force before it mixes with the combustion gases.