SU1183782A1 - Combustion knock arrangement - Google Patents

Abstract

1. A device for detonation combustion containing a combustion chamber with an exhaust manifold, characterized in that, in order to improve ease of operation, it further comprises a fluid silencer in which the exhaust manifold of the combustion chamber and a source of compressed gas with a distributing manifold installed in the lower part of the silencer are inserted as well as a valve connected between the gas source and the dispensing manifold and provided with a pneumopulse control line connected to the combustion chamber. 2. The device according to claim 1, of which is that the distribution collector S is made in the form of a perforated torus.

Description

The invention relates to a power system and can be used in the chemical, energy and other types of industry for burning fuel.

The purpose of the invention is to increase the convenience of operation by reducing the noise level.

The drawing shows the device a General view.

The detonation combustion device contains a detonation combustion chamber 1, at the outlet of which a siphon tube 2 is installed, immersed in the liquid of chamber 3 with a vertical

4 and two inclined partitions

5 and 6, exhaust pipe 7, manifold 8, pneumatic valve 9, booster tank 10, the inlet of which is connected

with a source of 11 compressed gas.

The fuel combustion device operates as follows.

The detonation combustion chamber 1 is filled with fuel and oxidizer up to the siphon tube 2, the booster tank 10 to the pneumatic valve 9 is filled with gas (air) under high pressure. As a result of ignition of the combustible mixture, a detonation wave is formed in the detonation chamber 1 of the combustion, propagating along the combustible

the mixture to the siphon tube 2, and also to the control input of the pneumatic valve 9, which, opening, allows the compressed gas from the source 11 in the form of a shock wave from the booster tank 10 to move to the collector 8 and to bubble through the holes in the form of gas bubbles into the liquid chambers 3. A shock wave from a detonation chamber 1 of combustion enters chamber 3 filled with a heterogeneous medium through a siphon tube (liquid — gas bubbles). Moreover, the size of the gas bubbles is determined by the diameter of the holes in the manifold 8, which is made in the form of a torus.

The diameter of the holes depends on the diameter of the torus tube D, the number of holes n and is determined from the ratio

where d is the diameter of the holes;

from I to

S is the surface area of the torus; K - experimental coefficient (20-100).

Obtaining the sizes of gas bubbles in the liquid of the optimal size significantly increases the efficiency of the collapse of the shock wave of the detonation combustion chamber.

Claims (2)

1. DEVICE FOR KNOWLEDGE BURNING, containing a combustion chamber with an exhaust pipe, which, in order to increase the convenience of operation, it additionally contains a liquid silencer into which an exhaust pipe of a combustion chamber and a source of compressed gas with a distributing manifold are introduced, installed in the lower part of the muffler, as well as a valve connected between the gas source and the distributing manifold and provided with an air-pulse control line connected to the combustion chamber. 2. The device according to π.1, characterized in that the distributing collector is made in the form of a perforated torus. //