Method for improving starting capacity of RBCC air inlet channel

A technology with starting capability and air inlet, applied in the field of air-breathing combined propulsion system, can solve problems such as difficulty in self-starting

Active Publication Date: 2020-08-28
NORTHWESTERN POLYTECHNICAL UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In addition, another important feature of the RBCC engine is that the intake port needs to be started in the ejection mode. At this time, the com...

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  • Method for improving starting capacity of RBCC air inlet channel
  • Method for improving starting capacity of RBCC air inlet channel
  • Method for improving starting capacity of RBCC air inlet channel

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Embodiment Construction

[0018] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

[0019] See Figure 1-3 As shown, the present invention provides a method for improving the starting ability of the RBCC inlet, the method for improving the starting ability of the RBCC inlet is applied to a rocket-based combined engine, and the rocket-based combined engine includes: an inlet 1, an isolation section 2, Combustion chamber 3 and built-in rocket 4.

[0020] The air inlet 1, the isolation section 2, and the combustion chamber 3 are connected in sequence, and the airflow flows in from the air inlet 1, passes through the isolation section 2 and is discharged from the end of the combustion chamber 3 after working in the combustion chamber 3; the built-in rocket 4 is located in the isolation At the exit of the section 2 and placed on the side of the isolated section 2, the built-in rocket 4 communicates with the combustion ch...

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Abstract

The invention provides a method for improving the starting capacity of an RBCC air inlet channel. The method for improving the starting capacity of the RBCC air inlet channel is applied to a rocket-based combined engine. The rocket-based combined engine comprises the air inlet channel, an isolation section, a combustion chamber and a built-in rocket; the initial chamber pressure of the built-in rocket is configured to be a first pressure value, and the outlet back pressure of the combustion chamber is configured to be a first back pressure value; and the working chamber pressure of the built-in rocket is sequentially reduced to a second pressure value and a third pressure value from the initial chamber pressure so as to reduce the starting mach number of the air inlet channel, and after the air inlet channel is started, the chamber pressure of the built-in rocket is restored to the first pressure value from the working chamber pressure so as to improve the starting mach number of the air inlet channel. When the air inlet channel is started, the chamber pressure of the built-in rocket is reduced by reducing the fuel quantity of the built-in rocket, so that the spanwise expansion radius of jet flow of the built-in rocket is reduced, the pressure intensity of the RBCC combustion chamber is reduced, then the starting mach number of the air inlet channel is reduced, and the self-starting capacity of the air inlet channel is improved.

Description

technical field [0001] The invention relates to the field of air-breathing combined propulsion systems, in particular to a rocket-based combined cycle engine. Background technique [0002] The Rocket-Based Combined Cycle (RBCC) engine organically integrates a rocket engine with a high thrust-to-weight ratio and an air-breathing ramjet engine with a high specific impulse in the same flow channel, and is compatible with ejection, subcombustion, and scramjet And pure rocket mode, to achieve high-performance work in wide speed range and large airspace. The intake port is the core component of the RBCC engine. Whether it can be started smoothly according to the design Mach number will determine whether the engine can enter the sub-combustion ramming mode as soon as possible, so as to give full play to the performance advantages of high specific impulse. The biggest difference between the RBCC engine and the conventional ramjet engine in terms of structural and functional feature...

Claims

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Application Information

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IPC IPC(8): F02K7/18F02C7/04F02C7/26F02C9/28F23R3/42
CPCF02K7/18F02C7/04F02C7/26F02C9/28F23R3/42
Inventor 石磊杨一言赵国军杨雪魏祥庚秦飞何国强
Owner NORTHWESTERN POLYTECHNICAL UNIV
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