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A Wedge Surface Structure Using Thermal Jet to Control Oblique Detonation Wave Initiation

A hot jet and detonation wave technology, applied in the direction of machines/engines, jet propulsion devices, etc., can solve the problems of increasing engine size, increasing engine weight, increasing resistance, etc., and achieves small total pressure loss and optimized thrust performance , the effect of small resistance

Active Publication Date: 2022-01-11
NANJING UNIV OF SCI & TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] According to the working characteristics of the oblique detonation engine, it can be known that the wedge angle should not be too large. Too large wedge angle will cause the mixture to dissociate prematurely and affect the thrust performance. At the same time, too large wedge angle will increase the resistance; wedge angle It cannot be too small, because the smaller the wedge angle, the lower the static temperature after the oblique shock wave, and the longer the induced length, which will increase the size of the engine and increase the weight of the engine
And if a straight wedge is used, it is difficult to control the detonation wave by changing the angle of the wedge

Method used

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  • A Wedge Surface Structure Using Thermal Jet to Control Oblique Detonation Wave Initiation
  • A Wedge Surface Structure Using Thermal Jet to Control Oblique Detonation Wave Initiation
  • A Wedge Surface Structure Using Thermal Jet to Control Oblique Detonation Wave Initiation

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Embodiment Construction

[0016] The present invention will be described in further detail below with reference to the accompanying drawings.

[0017] like figure 2 and 3 As shown, the present invention provides a wedge structure that utilizes a thermal jets to explodes the blast wave, which is an object of which is stabilized in the optimal position by the thermal jet at a smaller wedge angle. Make minimal resistance, the total pressure loss is minimized, so that the thrust performance is optimized.

[0018] The present application adds a spout on the basis of a flat wedge, introducing the engine detonation product and ejects from the spout, and the sprayed thermal jet forms a gas wedge, the gas wedge induces a new inclined wave, pass through The temperature rise of the oblique excitement realizes the explosion of oblique bangs.

[0019] The intensity of the thermal jet can be adjusted according to the actual flight conditions, thereby controlling the explosion of the oblique blast wave.

[0020] The jet ...

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Abstract

The invention belongs to the field of oblique detonation engines, and in particular relates to a wedge surface structure for controlling the initiation of oblique detonation waves by using heat jets. A nozzle in the same direction as the jet is provided at the end of the straight wedge surface close to the engine inlet. The detonation products of the engine are introduced and ejected from the nozzle to generate a hot jet. The ejected hot jet forms a gas wedge surface, and the gas wedge The surface induces a new oblique shock wave, which stabilizes the oblique detonation wave at the position of the jet. In the present invention, a co-direction nozzle is arranged on the basis of a straight wedge surface, and the detonation products of the engine are introduced and ejected from the nozzle. The ejected hot jet forms a gas wedge surface, and the gas wedge surface induces a new oblique excitation. The oblique detonation wave can be detonated by the temperature rise of the oblique shock wave; the wedge surface structure of the present invention can stabilize the oblique detonation wave at the optimal position through the thermal jet at a small wedge surface angle, and at the same time make the resistance Minimal, total pressure loss for optimum thrust performance.

Description

Technical field [0001] The present invention belongs to the field of oblique explosion engine, and more particularly to a wedge structure that utilizes a thermal jets to control the blast wave. Background technique [0002] The oblique explosion engine is the ideal engine with a high supersonic aircraft. The working principle of the oblique explosion engine is that the supersonic flow stream is impact compression on the wedge surface to form an oblique wave, and the temperature pressure after the inclined wave is raised, the speed is lowered, and the oblique blast wave is exploded after a segment of inducing segment. [0003] According to the operation characteristics of the oblique explosion engine, it is understood that the wedge angle cannot be too large. The excessive wedge angle can make the mixture prematurely, affect thrust performance, and excessive wedge angle increase resistance; wedge angle It is not too small because the smaller the wedge angle, the lower the post-inv...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F02K7/00F02K1/28F02K1/30
CPCF02K7/00F02K1/28F02K1/30
Inventor 张小兵秦琼瑶
Owner NANJING UNIV OF SCI & TECH
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