BG66690B1 - Plasma electrochemical flue gas purification method - Google Patents

Abstract

The invention relates to a method for plasma electrochemical purification of flue gases from harmful impurities in a gas-air dynamic environment, generating a wide-range acoustic emission in the cathode-anode reaction zone, the flue gas flow which may also contain water vapour is fed and directed into the reaction zone in parallel to the electron flow, the gas flow and the electron flow move in parallel in the reaction zone until the unloading zone of the formed products is reached, the gas flow diverts at the access point of the anode, wherein the generated fine particles of sulfur and carbon are trapped by the flowing water layer.

Description

Field of technology

The invention relates to a method for plasma electrochemical purification of flue gases, which is applicable to any devices for reductive and oxidative purification of flue gases from ash particles and oxides of carbon, sulfur and nitrogen.

BACKGROUND OF THE INVENTION

A method and device is known (BG 51440 of 24.08.90) by which air, flue gases or similar gas mixtures pass through the space in which one or more corona electrodes emit electrons which, when they fall on the surfaces of solid particles, ionize them. , as a result of which they fall on the anodes on which they are deposited and from where they are washed with water. With this method, it is impossible to excite, break down or ionize the molecules of harmful gases in order to transform them into elementary particles or harmless compounds.

Patent CN 101920167 A of 22.12.2010 describes the technology for trapping sulfur dioxide at low concentrations, using the method of electroosmosis, implemented in a three-chamber device in sonication with ultrasound, which serves to clean the perforations of the membranes used for separation. Membranes with fine perforation are used, and the openings cannot be cleaned effectively even with ultrasound. In addition, electroosmosis cannot compete with electrochemical gas technologies for cleaning harmful gas components in terms of productivity, efficiency and simplicity of equipment.

A technology for complex purification of flue gases from the specified harmful impurities in one reactor is known (Eurasian patent 005264 from 2004.12.30). The technology is based on the principles of plasma gas electrochemistry, namely that when a gas stream passes through a zone with emitted electrons from a needle cathode directed to the anode, the electrons with sufficient energy excite and break the molecules of harmful gas components and contained in gas, water vapor of ions and radicals. The result is that the ash particles are negatively charged and, as with electrostatic precipitators, are trapped at the anode, while the sulfur and carbon particles after electrification are recovered and trapped at the anode together with the ash particles are removed from the reaction zone by an aqueous layer. the surface of the anode, which is inclined so as to ensure a smooth flow of water with the trapped components. Accordingly, the cathode is inclined to be parallel to the anode in order to provide a uniform electrical gradient along the entire length of the reaction zone. According to the described patent, the flue gas moves transversely to the electron flow, its direction of movement being from top to bottom or vice versa.

European patent 200800310 A1 of 29.12.2007 describes a method for cleaning flue gases from their harmful gas components, which is essentially no different from the method described in Eurasian patent 005264. The only difference is in the device for implementing the method, which is with cylindrical shape as here the movement of the electron flow and gases is realized in non-unidirectional movement.

Technical essence of the invention

The aim of the invention is to improve the efficiency of flue gas cleaning from various boiler installations by changing the aerodynamics of the process in plasma electrochemical cleaning devices.

To achieve this goal, a method for plasma electrochemical purification of flue gases from harmful impurities in a gas-air dynamic environment has been created, and in the cathode-anode reaction zone a wide range of acoustic radiation and flue gas flow is generated, which may also contain water vapor. , is fed and directed to the reaction zone parallel to the electron flow. The gas flow and the electron flow move in parallel in the reaction zone until the unloading zone of the formed products approaches. The gas flow is diverted when it reaches the anode, where the fine particles of sulfur and carbon formed are trapped by a flowing layer of water.

Descriptions of issued patents for inventions № 07.2 / 31.07.2018

The method according to the present invention provides factors that intensify the gas purification process, which facilitate the purification of emitting electronic needles from accumulated reaction products, create in the reaction zone conditions for consolidation of fine particles of newly formed substances, which reduces the export them from the exhaust gases and facilitates their retention by the anode. These factors are:

- Supply of the gas flow parallel to the electronic flow. In this case, the gas simply "washes" the body and the blade of the needles and discharges the accumulations to the anode and because these accumulations are of reduced elements reduces the loss of nutrients. The disposal of the accumulations removes the shielding of the needle blades and they continue to function as intended, which contributes to the higher cleaning efficiency.

- In the treatment of gases with a low water vapor content, which are useful for the purification process, they can also be fed parallel to the electron flow in the reaction zone. The usefulness of water vapor lies in the fact that in the reaction zone of them is formed reduced, ie. atomic hydrogen, which is very reactive and has received the name "nascent hydrogen", i.e. highly reactive.

Generation of wide-range acoustic radiation with parameters from 20 to 30,000 Hz in the reaction zone together with parallel gas supply, whereby the formed fine particles of sulfur and carbon are unified and more easily reach the anode and are captured by the aqueous layer. The usefulness of acoustic radiation is in the creation of standing acoustic waves in the nodes where the particles accumulate and consolidate.

In particular, the method according to the present invention is a method for plasma electrochemical purification of flue gases from harmful impurities, including fine particles of sulfur and carbon in a gas-air environment, carried out in the following steps:

- acoustic radiation and plasma electron flux are generated in the provided cathode-anode reaction zone;

- parallel to the electron flow in the cathode-anode reaction zone in the direction from cathode to anode a stream of impure flue gases is fed, where under the influence of acoustic radiation fine particles of sulfur and carbon are consolidated and when reaching the anode the gas flow is diverted to unloading zone, and the sulfur and carbon particles are captured by a water stream provided at the anode in a perpendicular direction.

The method according to the present invention overcomes the following existing technological difficulties:

• The difficulty of cleaning the needles and especially their tips, due to the fact that the gas flow, moving perpendicular to the needles, puts pressure on the accumulations on them and in fact even strengthens the connection between the accumulations and the needle bodies, while the accumulations on the back of the needles are subjected to a cleansing effect because they are hidden by the bodies of the needles.

• Possible losses of the elements sulfur and carbon, because they are very small in size and therefore easily diverted from their movement to the anode and removed from the effluent. This is especially true for the particles located in the central parts of the reaction zone, because there the velocities of the elementary flows are many times greater than the velocity of the gas along the anode.

Example 1.

Figure 1 illustrates the method according to the invention, in which an electron flow moves in parallel with a gas flow formed as a consequence of the perforation in the cathode. The gas flow is diverted to the outlet when reaching the anode, where the velocity gradients are small and the particles have accumulated kinetic energy due to the fact that the gas in motion has accelerated them, when they reach the water layer they more easily overcome the surface tension of water. keep in it.

• The principles of the invention are illustrated by the sketches of the attached figure 1, which illustrate the known position of the flue gas supply transverse to the electron stream emitted by the cathode and the innovation of an electron stream flowing parallel to the gas stream proposed here.

Descriptions of issued patents for inventions № 07.2 / 31.07.2018

Claims (3)

Patent claims 1. A method for plasma electrochemical purification of flue gases from harmful impurities, including fine particles of sulfur and carbon in a gas-air dynamic environment, characterized in that it is carried out in the following stages: - acoustic radiation and plasma electron flux are generated in the provided cathode-anode reaction zone; - parallel to the electron flow in the cathode-anode reaction zone in the direction from the cathode to the anode is fed a stream of impure flue gases, where under the influence of acoustic radiation fine particles of sulfur and carbon are consolidated and when reaching the anode the gas flow is diverted to unloading zone, and the sulfur and carbon particles are captured by a water flow provided at the anode in a perpendicular direction. Method according to claim 1, characterized in that the stream of impure flue gases contains water vapor. Method according to claim 1 or 2, characterized in that the acoustic radiation is parameters of 20-30,000 Hz.