SU1111297A1 - Bag filter - Google Patents

Description

The invention relates to devices for the purification of gases from solid impurities. Known bag filter containing porous filter element, the frame and the inlet pipe lj. However, the cleaning efficiency of a known filter is small, since the filter has a shape with a constant cross section over the entire length. the sleeve and actively working is only the top (located at the inlet) half of the filter element. The lower half is practically excluded from work, since it is polluted with drink, and the regenerating gas wave, as a result of the loss of speed, does not clean it. In this connection, during the operation, the active filtering surface is approximately halved, which leads to an increase in the load on the filter element by as many times, its increased wear, deterioration in cleaning and shortening its service life. The purpose of the invention is to improve the cleaning of the filter element and increase its service life. This is achieved in that the bag filter containing the porous filter element, the frame and the inlet nozzle is provided with an insert,. placed inside the frame, with the top of the insert at the level of the lower edge of the inlet nozzle, and the base is fixed at the lower end of the frame. It is advisable to make the insert in the form of a paraboloid of rotation, which is formed by equation H.4: -y% where H is the height of the paraboloid of rotation at any point; O is the diameter of the filter element; t is the radius of a circle in the cross section of a paraboloid of rotation at any point p is a coefficient defined as the ratio of the area of the living section to the total area of the filtering element. where oiS is the half angle at the apex of the cone. The drawing shows a bag filter, a general view. The bag filter consists of an inlet 1, a carcass 2 on which the porous filter element 3 is pulled and inside which the insert 4 is fixed. and the filter proceeds as follows: Compressed regenerating gas is supplied through the inlet 1, part of which moves along the sleeve with velocity V, and part as a result of excessive pressure penetrates through the pores of the filter element 3 and performs cleaning to ensure uniform passage of gas through the pores the entire length of the filter it is necessary to observe the condition of the constant velocity of the gas inside the sleeve. This condition is satisfied in the case of a change in the area, the annular channel inside the sleeve filter, the enclosed o between the porous filter element 3 and the insert 4, in accordance with dependence 5; .5-pF, where S; - isokha is the cross-sectional area of the annular channel, 5 is the initial cross-sectional area of the filter element i. P is the filtration area of the porous filter element from the inlet pipe 1 to the desired cross section; P is the coefficient defined as the ratio of the area of the living section to the total filter area of the element. On the other hand, where n is the radius of a circle in the cross section of a paraboloid of rotation at any point. From these two equations follows. pFIfr Since F-Qll-p-H,

H is the height of pairs of an aboloid rotated anywhere. After the transformations get

H

pO

Thus, subject to this dependence, any point on the surface of the porous filter element perceives the same pressure of the regenerating gas, which ensures high-quality cleaning of the entire filtering surface.

Since the value of / pD. For conventional filter materials it is relatively large, and the length of the filters is limited, in order to simplify the construction, the parabolic insert can be replaced with a conical one, observing the dependence

ig, c.2p

where et is the half angle at the vertex: the cone.

This dependence follows from the formula

//

H

at

and R X in the drawing the cone-shaped insert is shown by a dotted line.

The economic effect is achieved by the fact that the insert is mounted inside the frame (the geometric shapes of the inserts are described by

the equations,. ,,. indicated above), provides a ne; rccodim change of the ring-shaped filter along the length of the filter, which leads to the constancy of the velocity of the regenerating wave throughout

filter length, and this leads to the cleaning of the entire surface of the filter element from contamination (as a result of reverse purging). In the operation of the filter is involved in cleaning

the entire filtering surface of the filter, as a result of which the upper half of the filter, located at the inlet, does not experience; war on, load on the filter | tion element. Everything

this makes it possible to increase

filter life is approximately two times and improve filtration quality due to less intensive wear of the filter element.

Claims (3)

1. HOSE FILTER containing a porous filter element, a frame and an inlet pipe, characterized in that, in order to improve the cleaning of the filter element and increase its service life, it is equipped with an insert located inside the frame, with the top of the insert located on level of the lower edge of the inlet pipe, and the base is fixed on the lower end of the frame. 2. Filter pop. 1, characterized in that the insert <is made in the form of a paraboloid of revolution, the generatrix of which is described by the equation where H is a high paraboloid of rotation at any point; D is the diameter of the filter element; G is the radius of the circle in the cross section of the paraboloid of revolution at any point; p is the coefficient, 'definable as the ratio of the living area to the total area of the filter element. 3. The filter according to claim 1, characterized in that, in order to simplify the design, the insert is made in the form of a cone, determined by the dependence tan οί = 2p ^ where about half the angle at the apex of the cone. SU ,, „1111297