SU1105671A1 - Neutralizer - Google Patents

Abstract

A NEUTRALIZER containing the main corona and non corona electrodes, as well as the first and second additional electrodes, a receiving chamber, an accelerating section and a reactor, characterized in that, in order to increase the neutralization efficiency, the accelerating section is made of a confuser and a cylinder sequentially connected along the gas and connected to the reactor through a diffuser, the corona electrode is installed in the cylinder, the non-coronating 51nd electrode is in the diffuser, the first additional electrode is in the confusor, the reactor is designed as a sphere and a second additional electrode is installed at the outlet of the reactor.

Description

The invention relates to engine-building and can be used to neutralize exhaust gases. There are known neutralizers containing the main corona and non-corona electrodes, as well as the first and second additional electrodes, the receiving chamber, the accelerating section and the reactor. Neutralizer allows cleaning-l. spent gzi. This device for implementing an exhaust gas neutralization method is characterized by insufficient efficiency. The purpose of the invention is to increase the efficiency of neutralization. The goal is achieved by the fact that the accelerating section is made of a confuser and a cylinder connected in series along the gas and is connected to the reactor through a diffuser, the discharge electrode is installed in the cylinder, the non-corona diffusion electrode, in the confuser, the reactor is made in the form of a sphere and a second additional electrode is installed at the outlet of the receiver. The drawing shows a neutralization scheme. The neutralizer consists of a receiving chamber 1, an accelerating section 2, jpeaKTopa 3 in the form of a sphere. Accelerating section 2 is made of a confuser 4 and a cylindrical part connected in series along the gas path and connected through a diffuser 6 to a reactor. In the confuser 4, the first additional electrode 7 is installed, the corona-forming electrode 8 is installed in the cylindrical part 5, the non-corona electrode 9 is installed in the diffuser 6, and the second additional electrode 10 is installed at the outlet of the reactor 3. When the neutralizer is operating, the exhaust gases flow in a mixture with secondary air to the receiving chamber 1. At the same time, a high voltage is applied to the corona electrode 8, the non-corona electrode 9, and to the first and second additional electrodes 7 and 10. In this case, a unipolar corona discharge is ignited between the corona electrode 8 and the non corona electrode 9, and with the help of additional electrodes 7 and 10 an electric field is created, which accelerates the movement of charged particles formed in the corona discharge plasma. Using the electric wind in the accelerating region 2, the kinematic energy of the jet is increased, which then transforms into the potential energy of increased pressure of ionized exhaust gases mixed with secondary air in the spherical reactor 3. Due to the electric wind, the excess pressure in the spherical reactor 3 does not increase the counter-pressure exhaust manifold and reduce the power of the internal combustion engine. At the same time, the excess pressure of ionized exhaust gases in a mixture with secondary air in the reactor 3 contributes to a more intensive flow of neutralization of exhaust gases. The spherical shape of the reactor allows it to have a maximum volume with a minimum surface, which reduces the loss of charged particles as a result of their recombination on the walls of the reactor and reduces heat loss, which also contributes to increasing the efficiency of exhaust gas neutralization. At the same time, in the spherical reactor, the kinematic energy of the pulsating flow is converted into potential energy by the pressure of the exhaust gases mixed with secondary air, i.e. The spherical reactor 3 is capable of smoothing the pulsations and thus acting as a silencer. The neutralizer will reduce the content of toxic components in the exhaust gases of the internal combustion engine.

Claims (1)

A NEUTRALIZER containing the main corona and non-corona electrodes, as well as the first and second additional electrodes, a receiving chamber, an accelerating section and a reactor, characterized in that, in order to increase the neutralization efficiency, the accelerating section is made of confuser and cylinder connected in series along the gas and connected to the reactor through the diffuser, the corona electrode is installed in the cylinder, the non-corona electrode is in the diffuser, the first additional electrode is in the confuser, the reactor is made in the form of a sphere and second second additional electrode flax plant reactor outlet. KL