DE1014791B - Two-circuit gas turbine for generating heating gases - Google Patents

Description

Two-circuit gas turbine for generating heating gases The invention refers to a heating turbine with an annular combustion chamber and rotary atomization, which is designed as a two-circuit machine for generating heating gases. The heating gases are primarily used for space heating, but can also be used to advantage for drying purposes as well as for preheating larger engines or the like. Use.

There are known heaters that, both fresh air and mixed air promotional, driven by an electric motor or a small gasoline engine. A separate burner is used to generate the heating gases Fan-conveyed fresh air is heated and as such or with the combustion air mixed in the combustion chamber, supplied to the intended use.

A particularly simple and economical heater results through the use of a gas turbine, which is preferably designed as a two-circuit machine there is no need to arrange a separate burner for generating heating gas. Anyway The existing compressor of the gas turbine system is used in two-circuit machines known way with arranged on a common shaft axial fan for Promotion of the total air and with a radial fan for the promotion of the first Circle-forming combustion air executed. Even. the double-flow training of the Radial.gebläses is already known in gas turbines.

The invention has to increase the combustion chamber efficiency Task and achieves this goal through special measures in the air flow in the Combustion chamber inlet and in the fuel inlet. In continuation of the double flow Combustion air flow into the combustion chamber inlet therefore proposes the invention two-circuit gas turbine, in which the new in the combination of the following elements the following can be seen: a) The axial compressor compresses the total air for both circuits; b) the centrifugal compressor only compresses the combustion air and has a double-flow design; c) the two combustion air flows emerging from the twin-flow centrifugal compressor are in the combustion chamber inlet in two radially directed, in the axial direction on both sides the injection plane arranged primary air flows and in two radially directed the outer sides of the primary air flows are divided into secondary air flows.

The features a and b as well as the sub-combination a + b are each known on their own and should not be the subject of the invention on their own.

Furthermore, according to the invention, the distribution of the combustion air is by means different sized, radially extending guide rings made on the outlet guide vanes of the centrifugal compressor are arranged. For fuel supply the known method of rotary atomization is used, according to the invention the introduction of the fuel through holes in the central web of the double-flow Radial impeller takes place.

The fresh air that forms the second circuit and is required for heating purposes is branched off from the total air flow in front of the radial fan and washes around the outer one Jacket of a preferably annular combustion chamber. She warms up on the hot combustion chamber wall and is when passing one at the outlet of the radial turbine arranged heat exchanger is further heated by the turbine exhaust gases passed through. The heating gas temperature is regulated by throttling the fresh air, which preferably made in the flow cross-section of the combustion chamber. will.

The heating of the hot air by means of a heat exchanger is not required in all cases. Where there is less on the purity of the heating gases arrives, the fresh air can after the radial turbine with the exiting combustion gases mixed directly and then put to use.

The drawing shows a schematic representation of an embodiment of the invention on the basis of a longitudinal section through the heating turbine.

In a housing 1, an annular combustion chamber 2 is arranged in such a way that that a free passage cross section 3 is formed between the two. Furthermore are in the interior of the housing 1 on a common shaft 4 mounted at 8, an axial fan 5, a double-flow radial impeller 6 and a radial turbine wheel 7 are provided. To the The exit of the double-flow radial fan 6 opposite are in the combustion chamber inlet the also double-flow outlet guide vanes 9 provided. Which the Passage through the guide vanes by means of radially extending ones of different sizes Rings 10 and 11 in separate channels for the primary air flows 12 and the secondary air flows 13 split. A bore 14 in the shaft 4 is provided with bores 15 in the radial fan wheel. 6 in connection, which open into the central web 16 of the double-flow wheel outlet. To the In the exemplary embodiment, the fresh air is regulated by an axially displaceable slide 17 or the like. Provided, which is also arranged differently designed at another point can be.

The mode of operation of the two-circuit heating turbine is as follows: The Total air conveyed by the axial fan 5 is split up in front of the radial fan 6 into the combustion air forming the first circle and into the second. Circle forming Fresh air. The combustion air of the first circuit flows through the double-flow radial fan 6 and is conveyed by this into the combustion chamber 2. The one in the combustion chamber inlet arranged outlet guide vanes 9 of the fan, which are symmetrical to the central plane the combustion chamber are arranged, divide the two by means of the rings 10 and 11 Air flows in primary flows adjacent to the right and left of the central plane: 12 and into secondary currents 13 located outside this. The through hole 14 of shaft 4 and the bores 15 of the impeller 6 is supplied fuel from the central web 16 lying mouths thrown off and formed by the primary streams 12 Vortex atomized. The complete burnout of the fuel takes place on it Participation of the secondary flows 13 takes place inside the combustion chamber. The hot fuel gases then flow through the turbine wheel 7 to the outlet.

The fresh air circuit branched off from the radial impeller 6 flows through it the space 3 formed between the combustion chamber 2 and the housing 1, the fresh air serves to cool the hot combustion chamber walls. At the exit of the heating turbine meets this preheated fresh air flow on the fuel gases emerging from the turbine, mixes with them and becomes its intended use, for example for drying purposes. or to preheat large engines.

For certain uses, such as space heating, is the presence of the combustion gases in the heating air is undesirable. In these cases it will the heating turbine is followed by a heat exchanger not shown in the drawing, in which the fresh air is heated by the turbine exhaust gases flowing through.

Claims (2)

PATENT CLAIMS: 1. Two-circuit gas turbine for generating heating gases with axial and radial compressor arranged on a common axis as well as °° 'with ° Annular combustion chamber and rotary atomization @ "characterized by the combination of the following Elements a) The axial compressor compresses the total air for both circuits; b) the centrifugal compressor compresses nux "; @! I '" lic combustion air and has a double-flow design; c) the two combustion air flows emerging from the twin-flow centrifugal compressor Weaving in the combustion chamber entrance in two radial directions, in the axial direction on both sides the inlet = ithave arranged primary air flows and in t v ei radially directed, Secondary air flows on the outside of the primary air flows are divided. 2. Gas turbine according to claim 1, characterized draws that the division of the combustion air by means of differently sized, radially extending of the guide rings (10, 11) is carried out on the Outlet guide vanes (9) of the radial compressor (6) are arranged. 3. Gas turbine according to claim 1 and 2, characterized characterized in that the fuel injection through holes (15) in the central web (16) ° ^ ° ''"Id'e ^ s double-flow radial compressor wheel (6) takes place: " 4. Gas turbine according to claim 1 to 3, characterized characterized in that the outer jacket 'the Fresh air flow flowing around the combustion chamber (2) Can be regulated by a slide (17) or the like. ' 5. Gas turbine according to claim 1 to 4, daditech characterized in that the turbine (7) has a heat exchanger is downstream in which the fresh air by means of the turbine exhaust gases flowing through is heated. Documents considered: Swiss Patent No. 243 957; French Patent No. 995 131; British Patent Nos. 693 227, 694414, 583 112; U.S. Patent Nos. 2,694,291, 2,575 ° 682 '.