RU2834515C1 - Gas turbine engine annular combustion chamber diffuser - Google Patents

Abstract

FIELD: engines.

SUBSTANCE: invention relates to a diffuser of an annular combustion chamber of a gas turbine engine. Gas turbine engine annular combustion chamber diffuser comprises outer and inner walls, the diffuser outlet part location level is above the diffuser inlet part level, length L of the diffuser lies within range of 3 to 3.5 of the height h of the outlet part of the diffuser, the distance L1 between the outlet part of the diffuser and the burners of the combustion chamber lies within the range L1=1/2h÷3h, height h of the outlet part of the diffuser corresponds to the height h_b of the swirler in the burner and is located so that the swirler is completely inside the streamlines, above the outer wall and the inner wall there are recesses formed by the space between the diffuser walls overhang and the combustion chamber housings, angle α between the outer and inner walls of the diffuser does not exceed 12°, shaping of walls is performed in compliance with condition of isogradience , where dP is pressure change, dx is coordinate change.

EFFECT: invention makes it possible to provide uninterrupted flow in the channel part of the diffuser, low pressure losses, stabilization of the flow at increase of speed at the inlet to the combustion chamber.

1 cl, 1 dwg

Description

The invention relates to devices for reducing the speed of formation of a uniform air flow in front of a front device in which burners of an annular combustion chamber are placed around the circumference, when the diameter of the flow part of the compressor does not coincide with the diameter of the location of the burners in the annular combustion chamber of a gas turbine engine.

From the patent for invention RU 1032866, a diffuser of the combustion chamber of a gas turbine engine is known, containing outer and inner shells and radial struts of a streamlined shape located between them.

The disadvantage of the invention is that this design increases the resistance of the diffuser and leads to an increase in pressure losses.

Does not ensure continuous flow in the diffuser duct section.

Does not provide the possibility of use in cases where the diameter of the flow part of the compressor does not match the diameter of the burners in the front device of the combustion chamber.

Utility model RU 213844 discloses a diffuser for a combustion chamber of a gas turbine engine, which contains a pre-diffuser, which is made up of several sections of profiled surfaces.

The disadvantages of this utility model include:

Does not provide the possibility of use in cases where the diameter of the flow part of the compressor does not match the diameter of the burners in the front device of the combustion chamber.

From the patent for invention RU 26840, a diffuser of the combustion chamber of a gas turbine engine is known, containing outer and inner annular power housings (walls), connected to each other by radial power cast struts.

The disadvantage of the invention is that this design increases the resistance of the diffuser and leads to an increase in pressure losses.

Does not provide flow stabilization when the speed at the entrance to the combustion chamber increases.

Does not provide the possibility of use in cases where the diameter of the flow part of the compressor does not match the diameter of the burners in the front device of the combustion chamber.

From the invention patent RU 2365821, a diffuser for an annular combustion chamber with one zone is known, in particular for an aircraft turboprop engine, containing a separating element dividing the air flow leaving the compressor into two annular diffusion flows, wherein the separating element is formed by a thin sheet connected by structural levers to the inner and outer circularly symmetrical walls of the diffuser.

In this invention, the expansion angle of each diffusion flow formed by the said thin sheet in the diffuser is approximately 13°, which is a forced measure to ensure a continuous flow in the diffuser and introduces additional resistance into the diffuser, which leads to the occurrence of additional pressure losses.

Does not provide the possibility of use in cases where the diameter of the flow part of the compressor does not match the diameter of the burners in the front device of the combustion chamber.

From the studied level of technology, a technical solution has been identified that coincides with the declared technical solution in terms of the set of features and the achieved technical result according to the patent for invention RU 2696519, the essence of which is that the annular combustion chamber of a gas turbine engine contains a diffuser containing outer and inner annular power housings (walls).

The disadvantages of the known invention are:

Does not ensure continuous flow in the diffuser duct section.

Does not provide low pressure loss.

Does not provide flow stabilization when forcing the speed at the entrance to the combustion chamber.

Does not provide the possibility of use in cases where the diameter of the flow part of the compressor does not match the diameter of the burners in the front device of the combustion chamber.

Does not provide a uniform supply of air to the combustion chamber's front device.

The objective of the claimed invention is to eliminate the shortcomings of the prototype, namely:

Ensure continuous flow in the diffuser duct section.

Ensure low pressure losses.

Ensure flow stabilization when the speed at the combustion chamber inlet increases.

Ensure the possibility of use in cases where the diameter of the flow part of the compressor does not coincide with the diameter of the burners in the front device of the combustion chamber.

Ensure uniform air supply to the burners of the front device.

The essence of the claimed technical solution is a diffuser of the annular combustion chamber of a gas turbine engine, containing outer and inner power housings (walls).

The diffuser of the annular combustion chamber of a gas turbine engine comprises outer and inner walls. According to the invention, the level of the location of the outlet part of the diffuser is above the level of the inlet part of the diffuser, the length L of the diffuser lies within the range from 3 to 3.5 heights h of the outlet part of the diffuser, the distance L1 between the outlet part of the diffuser and the burners of the combustion chamber lies within the range L1=1/2h÷3h, the height h of the outlet part of the diffuser corresponds to the height h _g of the swirler in the burner and is located so that the swirler is completely inside the flow lines, niches formed by the space between the projection of the diffuser walls and the combustion chamber housings are located above the outer wall and the inner wall, the angle α between the outer and inner walls of the diffuser does not exceed 12°, the profiling of the walls is performed in accordance with the isogradient condition , where dР is the change in pressure, dх is the change in coordinate.

The set task is generally achieved by the fact that:

To ensure a continuous flow in the duct section of the diffuser, the angle α between the outer and inner walls of the diffuser does not exceed 12°, the profiling of the walls is performed in accordance with the isogradient condition , where dР is the change in pressure, dх is the change in coordinate.

To ensure low pressure losses, the length L of the diffuser is within the range of 3 to 3.5 times the height h of the outlet part of the diffuser; in the duct part of the diffuser, the angle α between the outer and inner walls of the diffuser does not exceed 12°; the profiling of the walls is performed in accordance with the isogradient condition. , dР – change in pressure, dх – change in coordinate.

To ensure flow stabilization as the speed increases at the inlet, niches are located in the combustion chamber above the outer wall and the inner wall, formed by the space between the extension of the diffuser walls and the combustion chamber bodies.

To ensure the possibility of use when the diameter of the flow part of the compressor does not coincide with the diameter of the burners in the combustion chamber, the level of the outlet part of the diffuser is above the level of the inlet part of the diffuser, the length L of the diffuser lies within the range from 3 to 3.5 times the height of the outlet part of the diffuser h.

To ensure uniform air supply to the burners of the front device, the distance L1 between the outlet part of the diffuser and the front device of the combustion chamber lies within the range L1=1/2h÷3h, the height h of the outlet part of the diffuser corresponds to the height _h of the swirler in the burner and is positioned so that the swirler is completely inside the flow lines.

An analysis of known technical solutions, conducted on the basis of scientific, technical and patent documentation, showed that the set of essential features of the claimed technical solution is not known from the prior art studied by the applicant, therefore, it meets the patentability conditions of “novelty” and “inventive step”.

The claimed technical solution is illustrated by a drawing: the drawing shows a longitudinal section of the diffuser of the annular combustion chamber of a gas turbine engine.

A diffuser of an annular combustion chamber of a gas turbine engine, comprising an outer 1 and an inner 2 wall. The claimed diffuser of the combustion chamber of a gas turbine engine is characterized by the presence of significant design changes in comparison with known analogues, providing the design with the ability to realize the set goals, namely: the level of the location of the outlet part 4 of the diffuser is higher than the level of the inlet part 3 of the diffuser, the length L of the diffuser lies within the range from 3 to 3.5 times the height of the outlet part 4 of the diffuser, the distance between the outlet part 4 of the diffuser and the burners 5 of the combustion chamber lies within the range L1=1/2h÷3h, the height of the outlet part 4 of the diffuser corresponds to the height of the swirler 6 in the burner 5 and is located so that the swirler 6 is completely inside the flow lines 7, niches 8, 9 are located above the outer wall 1 and the inner wall 2, formed by the space between the extension of the walls 10, 11 of the diffuser and the housings 12, 13 of the combustion chamber, the angle α between the outer 1 and inner 2 walls of the diffuser does not exceed 12°, profiling of walls 1, 2 is performed in accordance with the isogradient condition , where dР is the change in pressure, dх is the change in coordinate.

Streamlines 7 are the boundaries within which the air moves as it leaves the diffuser.

Based on the above, it seems possible to draw conclusions about the achievement of the stated goals, namely:

A continuous flow in the diffuser duct section is ensured by the fact that the angle α between the outer and inner walls of the diffuser does not exceed 12°, and the profiling of the walls is performed in accordance with the isogradient condition. , where dР is the change in pressure, dх is the change in coordinate.

A low level of pressure loss is ensured by the fact that the length L of the diffuser lies within the range from 3 to 3.5 of the height h of the outlet part of the diffuser, in the duct part of the diffuser the angle α between the outer and inner walls of the diffuser does not exceed 12°, the profiling of the walls is performed in accordance with the isogradient condition , where dР is the change in pressure, dх is the change in coordinate.

Stabilization of the flow is ensured when the speed at the entrance to the combustion chamber increases due to the fact that niches are located above the outer wall and the inner wall, formed by the space between the extension of the diffuser walls and the combustion chamber bodies.

The possibility of use is ensured when the diameter of the flow part of the compressor does not coincide with the diameter of the burners in the combustion chamber by the fact that the level of the outlet part of the diffuser is located above the level of the inlet part of the diffuser, the length L of the diffuser lies within the range from 3 to 3.5 of the height h of the outlet part of the diffuser,

A uniform air supply to the burners of the front device is ensured by the fact that the distance L1 between the outlet part of the diffuser and the front device of the combustion chamber lies within the range L1=1/2h÷3h, the height h of the outlet part of the diffuser corresponds to the height _h of the swirler in the burner and is positioned so that the swirler is completely inside the flow lines.

Thus, in comparison with the prototype, the declared technical solution provides overall more efficient use for its intended purpose, i.e. the declared technical solution provides due to changes in the design diffusers of the annular combustion chamber of a gas turbine engine, their more efficient use in combustion chambers of gas turbine engines,

namely: a continuous flow in the duct part of the diffuser is ensured, a low level of pressure loss is ensured, flow stabilization is ensured with an increase in speed at the entrance to the combustion chamber, the possibility of using the diffuser is ensured in the case when the diameter of the flow part of the compressor does not coincide with the diameter of the burners in the combustion chamber, a uniform air supply to the burners of the front device is ensured.

The air flow (in the drawing) enters the inlet part 3 of the diffuser and moves between the profiled ones in accordance with the isogradient condition outer 1 and inner 2 walls having an angle of no more than 12°, with an area increasing from the inlet 3 to the outlet 4 part, and a length L lying within the range from 3 to 3.5 times the height of the outlet part 4 of the diffuser.

Having passed into the outlet part 4, a portion of the air enters niches 8, 9, located in the space between the projection of the walls 10, 11 of the diffuser and the housings 12, 13 of the combustion chamber.

The main air flow moves through the distance between the outlet part 4 of the diffuser and the burners 5 of the combustion chamber, which lies within L1=1/2h÷3h along the flow lines 7. Considering that the outlet part 4 of the diffuser corresponds to the height of the swirler 6 in the burner 5, the air enters the swirler 6, which is completely inside the flow lines 7.

Claims (1)

A diffuser of an annular combustion chamber of a gas turbine engine, comprising outer and inner walls, characterized in that the level of the location of the outlet part of the diffuser is above the level of the inlet part of the diffuser, the length L of the diffuser lies within the range from 3 to 3.5 heights h of the outlet part of the diffuser, the distance L1 between the outlet part of the diffuser and the burners of the combustion chamber lies within the range L1 = 1 / 2h ÷ 3h, the height h of the outlet part of the diffuser corresponds to the height h _g of the swirler in the burner and is located so that the swirler is completely inside the flow lines, niches formed by the space between the extension of the diffuser walls and the combustion chamber housings are located above the outer wall and the inner wall, the angle α between the outer and inner walls of the diffuser does not exceed 12 °, the profiling of the walls is performed in accordance with the isogradient condition , where dР is the change in pressure, dх is the change in coordinate.