SU1490384A1 - Pulsed burning device - Google Patents

Abstract

The invention can be used for the forced burning of fuel, for example, in water-heating units and allows to increase the operational reliability. For this, the aerodynamic valve 3 is enclosed in a cooling jacket 7 with internal guide walls 8, and the end wall 5 is additionally provided with a cooling jacket 9 with connections 10 and 11 connected to the jacket 7. When water is supplied to the connection 10, it cools the end wall 5 of chamber 1 ignition and aerodynamic valve 3, which increases operational reliability. 1 il.

Description

The invention relates to the energy sector and can be used for the forced burning of fuel, for example, in water heating units.

The aim of the invention is to increase operational reliability.

The drawing shows a diagram of the proposed device.

The device comprises an ignition chamber 1 with a nozzle 2 and an aerodynamic valve 3 oppositely mounted on its end walls 4 and 5, and a resonance tube 6 connected to chamber I tangentially. The aerodynamic valve 3 is provided with an external cooling jacket 7 with internal guide walls 8, and the end wall 5 of the ignition chamber 1 in the valve zone 3 is additionally equipped with a cooling jacket 9 having an inlet and an outlet 10 and 11 and connected to the valve jacket 3 3 В camera 1 is installed ignition device 12.

The device works as follows.

Igniter 12 is turned on, fuel (salt, gas, kerosene, fuel oil) is supplied through nozzle 2, starting air is supplied through aerodynamic valve 3 to bring the device to a steady pulsation mode. After the device enters a stable pulsation mode, the start-up air and the igniter 12 are removed and the device

runs on samovsose "At the inlet 10, water is supplied 10-30 C with flow rates from 100 to 2000 kg / h, which

allows intensive cooling of aerodynamic valve 3 from 1200-1300 to 100-300 ° C depending on the fuel supply (30-50 kg / h). The baffles 8 facilitate the directional movement of the hot fluid.

Intensive cooling of the aerodynamic valve 3 will improve the operational reliability of the device.

Claims (1)

Invention Formula A pulsating combustion device comprising an ignition chamber with a nozzle and an aerodynamic valve installed oppositely on its end walls, and a resonant tube connected to the ignition chamber tangentially, characterized in that the aerodynamic valve is equipped with an external cooling coil with internal baffles, and the end wall of the ignition chamber in the valve area is additionally equipped with a cooling jacket having an inlet and outlet patra ki and connected to the cooling jacket of the valve.