RU2057996C1 - Gas-dynamic igniter - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: igniter has precombustion chamber accommodating accelerator with nozzle and acoustic cavity placed coaxially opposite each other, after burning chamber with inlet nozzle and fuel component supply connection. Precombustion chamber and after burning chamber communicated through hole. Outlet nozzle diameter is greater than two minimal diameters of accelerator nozzle. EFFECT: improved design. 1 dwg

Description

 The invention relates to energy and can be used in stationary and transport installations for the ignition of combustion chambers.

 Unlike the known types of igniters (electric, pyrotechnic, etc.), gas-dynamic ignitors do not need extraneous energy sources that initiate ignition.

 However, a significant drawback of gas-dynamic ignitors is the limited duration of their operation due to overheating of the structure.

 The aim of the invention is to increase the duration of combustion by reducing the temperature of combustion in the prechamber of the igniter.

 This goal is achieved by the fact that the pre-igniter chamber through one or more holes communicates with the afterburner, which contains a nozzle for supplying a fuel component and an exhaust nozzle, and the diameter of the exhaust nozzle in the minimum section is more than two minimum diameters of the accelerator nozzle.

 The drawing shows the proposed igniter.

The igniter contains an accelerator 2 with a nozzle and a hollow acoustic resonator 3 arranged coaxially and opposite each other in the prechamber 1 and the prechamber 1 through the hole communicates with the afterburner 4, which contains a nozzle 5 for supplying a fuel component and an outlet nozzle 6, the diameter of the outlet nozzle d _{c. in} the minimum cross section is greater than two minimum diameters of the nozzle of the accelerator d _s.u.

 The igniter operates as follows.

 The gaseous component of the fuel, for example, the oxidizing agent is fed into the nozzle of the accelerator 2, the second component (fuel) is divided into two portions, one of which is passed through the nozzle of the accelerator 2, and the other through the nozzle 5 is introduced into the afterburner 4.

The fuel mixture, passed through the nozzle of the accelerator 2, enters the cavity of the resonator 3, where under the condition d _s.v > 2d _cu . oscillations of shock waves develop, as a result of which the mixture in the resonator 3 heats up and flashes. The flame is transferred to the mixture filling the pre-chamber 1, and flows into the afterburner 4, where it is mixed with a new portion of the second component and burns, as in the well-known afterburners operating in stationary thermal mode. In this case, the combustion temperature in the prechamber 1 decreases, since part of the flow rate of one of the components is discharged through the pipe 5 to the afterburning chamber 4.

 The use of the device allows to reduce the temperature of the structure and increase the duration of combustion.

Claims (1)

 A GAS-DYNAMIC IGNITOR containing an accelerator with a nozzle and a hollow acoustic resonator placed coaxially and opposite to each other in the prechamber, characterized in that, in order to increase the duration of combustion, the igniter is equipped with an afterburner containing a fuel component supply pipe and an outlet nozzle and communicated by means of an opening with a prechamber moreover, the minimum diameter of the exhaust nozzle is greater than two minimum diameters of the accelerator nozzle.

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