DE1282355B - Combustion chamber - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

F02c

German class: 46 f- 7/03

Number: 1282 355

File number: P 12 82 355.1-13 (S 102785)

Filing date: March 26, 1966

Open date: November 7, 1968

O si O M.

The invention relates to a combustion chamber, in particular for gas turbine systems, with a circular Cross-section, in the center of which a burner is arranged at one end of the combustion chamber, wherein, seen in the direction of flow, in front of the cross-sectional plane in which the nozzle opening of the burner lies, for the combustion air a swirl device is arranged, which is approximately in the through the nozzle opening the burner given cross-sectional plane of the combustion chamber is followed by a diaphragm.

In order to be able to keep the position of the flame stable in the combustion chamber of a combustion chamber, im general devices are provided by which backflows are generated in the combustion chamber. In a known construction, the diaphragm has such a diameter that its opening in the flow area of the swirl device protrudes. Experimental studies have shown that with such an arrangement the necessary for the stabilization of the flame strengthen Do not allow backflows to reach the central area of the combustion chamber. It is believed, that this is due to the fact that the air in the known arrangement from the Swirl device through the diaphragm with preferably extending in the longitudinal direction of the combustion chamber Component flows, while for the formation of a strong return flow, one flows radially inwards directed flow component is very essential.

The invention is based on the disadvantages of the aforementioned known construction to overcome and to create a combustion chamber in which the swirl device and a Orifice supplied combustion air such a flow - in particular in front of the nozzle opening of the burner containing cross-sectional plane a flow component radially inward - Is forced that in the central area of the combustion chamber a strong backflow of the Results in air, through which a stabilization of the flame takes place.

The invention is characterized in that the twist device in the outer region of the circumference of the combustion chamber is arranged and that furthermore the opening diameter of the diaphragm is smaller than that smallest diameter of the twist device. Tests have shown that the inventive training a combustion chamber of the type mentioned above with simple Funds is resolved.

The diaphragm opening can advantageously be arranged in such a way that its plane protrudes from the transverse combustion chamber

Applicant:

Sulzer Brothers Aktiengesellschaft,

Winterthur (Switzerland)

Representative:

Dipl.-Ing. H. Marsch, patent attorney,

4000 Düsseldorf, Lindemannstr. 31

Named as inventor:

Emil Graf, Winterthur (Switzerland)

Claimed priority:

Switzerland of January 27, 1966 (1148)

Section plane of the burner mouth displaced vertically by a maximum of one twentieth of its diameter is. Furthermore, the blades of the swirl device can through during operation Turning an adjusting cylinder to be adjustable. This ensures that the position and shape of the Flame can be changed within certain limits. The start of the flame can, for. B. at weak twist at a large distance from the aperture, the flame shape is long and narrow. The start of the flame can be very close to the aperture due to the strong twist be brought, the flame being short and wide. By adjusting the blades of the swirl device can therefore change the shape of the flame and thus the wall temperature of the actual Combustion chamber are influenced.

Furthermore, to regulate the amount of air flowing from the swirl device to the diaphragm, the

The position of the adjusting cylinder can be adjusted in the direction of the burner axis. Together with the diaphragm wall, the lower edge of the adjusting cylinder forms a flow opening of variable cross section for the combustion air. This quantity regulation is particularly advantageous when starting up and shutting down a gas turbine system, since it can prevent the flame from going out prematurely.
In the case of combustion chambers of large diameter, it is advantageous to support the main swirl flow generated by the swirl device and the diaphragm in that the diaphragm support is attached

809 630/918

3 4

its outer edge has a cylindrical wall, which are provided with a slot. In these

on their outer surfaces fixed swirl blades slots are corresponding guide rails 8 a

are appropriate. The cylindrical wall, which is introduced for the

narrowing of the flow cross-section that is welded on the outside between its jacket 7,

and air 5 flowing into the combustion chamber jacket. The combustion chamber housing 1 is through upwards

also, at least on its downstream side, the lid 9 is closed, which is in its center

End, which may be conical, has an opening 10 extending. Inside the lid 10

while in the direction of flow up to a combustion a holding cylinder 11 is attached, in which on the

Chamber cross-section, such that the circumference distributed through it, the axes 12 of the adjustable

Generated additional swirl flow, if possible, blades 13 of the swirl device are mounted. the

prevents it from flowing into the main swirl flow. Axes 12 are via a lever system 14, 15 with

Furthermore, it is useful to connect the diaphragm in an adjusting cylinder 16, the slot-

Form the flow direction in a conical shape. has like openings 17 into which the lever arms 15

As a result, greater stability of the diaphragm will intervene. The adjusting cylinder 16 can be

body rotated against by the high temperatures as well as in the axial direction of the combustion chamber

conditional faults reached. It will also be postponed.

the inflow conditions for the combustion The blades 13 are improved on their outer circumference air into the combustion chamber. In order to be very surrounded by the visor support 18, in which the visor body is additionally welded with a strong twist setting, two flat rings 19 and 20 are welded, borrowed against excessively high temperature, the measure can be taken between those of the slightly conical in this example, that a cylindrical diaphragm body 21 is mounted. Collar is attached to the edge of the aperture. At the edge of the aperture 22, the device according to the invention allows, since the diameter d is about half to a quarter of the diameter d is about half to a quarter of the diameter measured in the backflow, to inject the fuel of the blade center of the swirl device, measured with a very slim spray cone, is a collar 23 welds liquid fuel of relatively large size, which can be burned to protect the visor body 21 from droplet size. In the case of fuels in the form of gases that are too high with a strong swirl setting, it is sufficient to use the gas without. The height h of the collar is approximately 0.05 to special distribution devices in the direction of 0.2 of the aperture diameter d. Let the burner axis flow in. This makes it possible to use a very simple or 8 c burner construction with the help of the fixed swirl blades for the simultaneous or optional combustion of oil and / or gas on the support elements 8 welded on the upper edge , in which of the 24 are supported, the burners for the liquid fuel are welded to the center of the diaphragm support 18 on the cylindrical outer wall. Against an ordered burner designed as a simple tube without twisting, the diaphragm carrier 18 is concentrically secured in a similar special distribution device by guide slots and guide rails for the gaseous fuel like the inner jacket 7. the downward end of the panel support 18 has a

Further features of the invention result from conical enlargement 25.

The following description of an embodiment 40 between the inner jacket 7 and the aperture example in connection with the drawing. Carrier 18 can provide additional air through the swirl. The figure shows a longitudinal section of a blade 24 guided into the combustion chamber 6 in a combustion chamber designed in accordance with the present invention, in which optionally flow. The diaphragm carrier 18 is drawn so far into or at the same time a liquid and / or gaseous combustion chamber 6 that its fuel can be burned. 45 outside air flowing in the combustion chamber housing 1 generated by the swirl device 13, shown only in its upper part, and the diaphragm opening 22, which supports a circular main vortex. The conical enlargement has a cross-section, is located for the air 25 serves to reduce the flow cross-section of the between two EmströmÖffnungen 2, which see tangential diaphragm carrier 18 and inner jacket 7 and diametrically opposite to reduce the air flowing into the housing 150 under certain circumstances . It goes without saying that the adjustment cylinder 16, which is necessary to adjust the cross-section so that the blades 13 can be rotated precisely in a circle, is still, as corresponds. He can z. B. to an oval or already mentioned, be deformed in the axial direction of the combustion chamber to an ellipse. Slidable so that its lower edge 26 closes. The openings 2 have flange-like end 55 together with the diaphragm body 21 a through-piece 3 to which the pressure-flow opening, not shown, of variable cross-section for the lines for the air are connected. For guiding the swirl device 13 to the aperture 22, the inflowing air is formed inside the flowing air.

Housing 1 has a cylindrical intermediate jacket 4. The adjustment of the blades 13 is made possible in

strengthens to change the twist on the support pieces 5 for the support 60 certain limits, whereby

of the combustion chamber 6 surrounding - from the shape of the flame can be influenced. A

several telescopically interlocking pieces strong twist results in a short, wide flame,

existing - inner jacket 7 are welded. while a weak twist has a long, narrow twist

The individual sections of the inner jacket 7 support flame stabilized.

with the help of the support elements 8 on the support 65 The adjustment and rotation of the cylinder 16

cut 5. The inner jacket 7 is rotated by a tubular guide piece 27 which

is thereby prevented that leads between the support through the opening 10 in the housing cover 9 and

pieces 5 some guide elements 5 α arranged over a connecting cone 28 with the cylinder

16 is connected. The guide piece 27 has two racks 29 and 30, one of which, 29, perpendicular teeth and the other, 30, horizontally on the circumference of the guide piece 27 has running teeth. The toothed rack 29 is used in cooperation with the threaded spindle 31 for rotation and the rack 30 together with the threaded spindle 32 for the axial displacement of the Adjusting cylinder 16.

The guide piece 27 and the connecting cone 28 coaxially enclose the burner arrangement, the consists of a centrally arranged oil burner 33 and a jacket tube 34 surrounding it. The nozzle opening 35 of the oil burner 33 is located according to the invention in the plane of the aperture 22. The oil burner 33, which is designed as a return burner is, has a connection 36 for the inlet and a connection 37 for the return of the oil. Between the jacket 34, which has nozzle openings 39 at its lower end, and the oil burner 33 can either cooling air or - with optional or simultaneous combustion of oil and / or Gas - the gaseous fuel to be fed into the combustion chamber. For this purpose can at the connection 40 of the jacket tube 34 optionally an air or a gas line can be connected. The burner assembly and the guide piece 27 are surrounded by a housing 41, which on the cover 9 is supported and attached to the holder 42 for the burner.

The spray cone of the fuel (s) is designated by 43, while those arising in the combustion chamber 6 Air flows are indicated by arrows, which in the illustration in the plane of the drawing lying arrows in reality do not run in a plane, but in space. The air distribution the amount of air flowing into the combustion chamber through the openings 2 is z. B. so, that of four parts of air a part in a first partial flow through the swirl blades 24 and in one second, larger partial flow flows through the swirl device 13 to the diaphragm 22 and so the one shown strong eddies with the powerful backflow generated, which are necessary for the stabilization of the flame is. About three parts of the total air pass through between the intermediate jacket 4 and the inner jacket 7 formed channel in the lower part of the combustion chamber, in which approximately two parts flow through trumpet-like openings as secondary air into the combustion chamber 6, which is not is further shown. The remaining part of the three parts of air flows through the connecting line as cooling air Combustion Chamber — Turbine and is partially used to cool the turbine.

The flow arrows shown show the flow conditions in a purely schematic and approximate manner again, so that neither its thickness nor its length has any connection with the through they represent the flow rate. In addition, as already mentioned, these arrows are in the To consider space and not running in the plane.

Claims (8)

Patent claims: 1. Combustion chamber, especially for gas turbine systems, with a circular cross-section, in the center of which a burner is arranged at one end of the combustion chamber, with, seen in the direction of flow, in front of the cross-sectional plane in which is the nozzle opening of the burner, a swirl device is arranged for the combustion air is approximately in the cross-sectional plane given by the nozzle opening of the burner the combustion chamber is followed by a diaphragm, characterized in that the swirl device (13) is arranged in the outer region of the circumference of the combustion chamber (6), and that also the opening diameter (22) of the Orifice (21) is smaller than the smallest diameter of the swirl device (13). 2. Combustion chamber according to claim 1, characterized in that the plane of the diaphragm opening (22) from the cross-sectional plane of the burner mouth (35) by a maximum of one twentieth of the Diameter of the aperture opening (22) is shifted vertically. 3. Combustion chamber according to claim 1, characterized in that the blades (13) of the swirl device can be adjusted during operation by turning an adjusting cylinder (16). 4. Combustion chamber according to claim 3, characterized in that for controlling the of the Swirl device (13) to the diaphragm (21) air flowing the position of the adjusting cylinder (16) in the direction the burner axis is adjustable. 5. Combustion chamber according to claim 1, characterized in that the diaphragm support (18) on its outer edge has a cylindrical wall, on the outer surface of which there are fixed swirl blades (24) are attached. 6. Combustion chamber according to claim 5, characterized in that the cylindrical wall at least is conical at its downstream end (25). 7. Combustion chamber according to claim 1, characterized in that the diaphragm body (21) in Direction of flow is designed to be conical. 8. Combustion chamber according to claim 1, characterized in that a cylindrical collar (23) is attached to the edge of the aperture (22). Considered publications:
German Auslegeschrift No. 1 123 868;
Swiss patent specification No. 359 323. 1 sheet of drawings