UA28891U - Electric precipitator for cleaning of air and emissions - Google Patents

Abstract

An electric precipitator for cleaning of air and emissions contains a housing, a discharge electrode, a precipitation electrode, and a bunker.

Description

Description of the invention

A useful model refers to the technique of cleaning air and emissions. 2 A well-known electric filter for gas purification, which includes a housing, crowning and sediment electrodes, which are cleaned during the rotation of the latter. (Author's certificate of the USSR Mo337530, class E 21 E 5/00, 01.06.70).

Disadvantages: insufficient cleaning level at high velocities of the polluted flow and the complexity of the design. 70 The closest technical solution is an electrostatic precipitator, which includes a body, nozzles for supplying steam, crowning and sediment electrodes and screws partially immersed in water. (Author's certificate of the USSR Mo589024, class B 03 C 3/10, 23.06.75.

Disadvantages: the complexity of the design and high cost due to the need for additional costs for disposal of the resulting pulp. 19 The basis of a useful model is the task of improving the electrostatic precipitator by introducing new structural elements and their optimal mutual arrangement. It is possible to obtain a given degree of purification regardless of the speed of the flow, and due to this, the process of air and environment purification is intensified while reducing costs.

The task is solved by the fact that in a well-known electric filter for air and emissions purification, which includes a housing with a corona electrode at the entrance, a sediment electrode made with the possibility of rotation around its axis, a hopper, according to a useful model, the sediment electrode is installed in the center of the housing behind the corona electrode with by the formation of gaps between it and the body, while the body at the level of the deposition electrode has a shape that repeats the shape of the surface of the deposition electrode.

In Fig. a schematic representation of the proposed electric filter for air and emissions purification, where: 1 - housing; 29 2.- sedimentary electrode; C - bunker; 4 - wetting element; 5 - spring-loaded scraper; b-source of high pt") voltage; 7-coronating electrode.

The electrostatic precipitator contains a housing 1, made with an extension that repeats the shape of the surface of the sediment electrode 2, installed with a gap in the center of the housing 1 and made with the possibility of continuous rotation at its location, while the value of the transverse axial section of the sediment electrode 2 is not less than -- 30 the size of the cross-section of the body 1 at the location of the corona electrode 7. Behind the sediment electrode 2 od) in the direction of the air flow, there is a hopper C for collecting pollutants that have settled, which adjoins the sediment electrode 2 with a gap to prevent the secondary introduction of pollutants. The sedimentary electrode CO 2 itself is equipped with a wetting element 4 made of porous material, which is pressed against the outer surface of the sedimentary electrode 2 on one side, and immersed in a surface-active liquid on the other side. This ensures the interaction of pollutants with the wetted surface of the sediment electrode 2 not only of the electrostatic type, but also of the hydrodynamic type. To carry out the regeneration process, a spring-loaded scraper 5 pressed against the outer surface of the sediment electrode 2 is installed in the bunker part in order to remove stuck pollutants in a timely manner. A crowning needle electrode 7, located at the entrance of the housing 1 in the direction of the air flow, would be connected to the high voltage source. C 50 A useful model "Electrofilter for cleaning air and emissions" works as follows: the polluted stream c enters the electrostatic precipitator and passes through the corona discharge field of the corona electrode 7, where particles c" of pollutants are charged and move with the air flow in the direction of the grounded sediment electrode 2, which rotates continuously. Deposition of charged particles occurs on the surface of the sediment electrode 2 both under the action of electrostatic force and under the action of the inertial force, as a result of which, when flowing around the spherical surface of the sediment electrode 2, pollutant particles leave the air flow lines and interact with the pre-wetted outer surface of the sediment electrode 2, due to electrostatic attraction and adhesion. o At the same time, in the gap at the level of the sediment electrode 2, a turbulent mode of air flow is established, almost regardless of its initial speed, which contributes to increasing the efficiency of cleaning. This is due to the sufficient size of the sediment electrode 2 to ensure large values of the Reynolds number, which (Te) 20 correspond to the turbulent regime. By changing the size of the gap between the sediment electrode 2 and the body 1 in the area of expansion, it is possible to control the force of the aerodynamic resistance of the air flow in the electrofilter. Sticky

With the help of a pressed spring-loaded scraper 5, pollutants are cleaned from the surface of the sediment electrode 2 during the rotation of the latter and fall into the hopper C under the influence of weight.

Thus, in contrast to known devices, in this electric filter, the required degree of purification is achieved regardless of the initial velocity of the polluted air flow, and the cost of disposal of deposited pollutants is reduced, since water purification is not required, due to which the closed technological cycle of air purification and emissions is reduced .

Claims (1)

60 Formula of the invention Electrofilter for cleaning air and emissions, containing a case with a corona electrode at the entrance and a sediment electrode made with the possibility of rotation around its axis, a hopper, which is distinguished by the fact that the sediment electrode is installed in the center of the case behind the corona electrode with the formation of gaps between it and body, while the body at the level of the sediment electrode has a shape that repeats the shape of the surface of the sediment