DE7013638U - SEPARATION DEVICE FOR GASES. - Google Patents

Description

Düsseldorf, on 12,. '4. 1973

PL / Yes

Registration number. 1532

SERCK INDUSTRIES LIMITED Warwick Road,

Birmingham 11 / UK

Separation device for gases

: The innovation relates to a device for collecting

* and separating particles from a ^ i; Gas flow.

f As is well known, it comes with a movement of a wedge-shaped

1 body relative to a particle or droplet contained-

|: the gas flow causing some of the particles or droplets

I hit the guiding surface of the body, the impact

[speed depends on a number of influencing variables,

^ to which the speed of the body in per. \ _of the gas,

>;; the size of the droplets or particles and the. > r_sung of the

j body count.

^: According to the present innovation is proposed in a device for collecting particles from a gas, a chamber for the flow of the gas during operation and a disk with a plurality of planes

] to use blades inclined to the plane of the disk in such a way that

; that the disc during operation a gas through the

i Chamber-promoting fan forms, the chamber wall a

\ has annular recess into which the disc edge

; extends, and that a motor for rotating the disk

as well as for the absorption of particles separated by the centrifugal forces of the disk rotation in the recess are provided, and that the volume passed through the device per unit of time is not greater than the product of the at the same time is the volume swept by the leading edge of each wing with the wing number.

One carried out according to this proposal according to the innovation Device will be described below with reference to the drawing in which

1 shows a cross section through the device,

FIG. 2 is a view taken along line 2-2 of FIG. 1 and FIG

Fig. 3 shows cross-sections through optional shapes of the wings.

A cylindrical chamber 10 has an annular recess 11 in its upper part. From at least one point of the Recess 11 is a drain 12 from. A disc 13 arranged coaxially in the chamber 10 is driven by means of a motor driven. The disk 13 is provided with a multiplicity of vanes 14 which are connected to the plane of rotation of the disk 13 are inclined. The wings IU become more radial by a Vi- ^ number Slots in the disc 13 and formed by carding the sections standing between the slots. Preferably The slots do not extend to the edge of the disc 13, so that the disc 13 has a flat, annular shape Section 13a owns. Optionally, the slots can extend to the edge of the pane. The disc 13 protrudes into the recess 11. The play between the circumference of the disc 13 and the inner circumference of the recess 11 is as little as can be arranged if possible. Provided that the shape shown in Figure 3 (c) is selected for the wings is, the disc 13 is made by casting or by pressing.

When separating by spinning, two conditions must be met. First of all, the inertia parameter or the Stokes' see number for the particles to be separated greater than 12, for which the following relationship applies:

^V o ^d P ^2p P
(St) = v> 12

where d _f d _p ² P _p - 1

V ₀ 108
With (St) as Stokes' number are

V is the velocity of flow of the gas and the particles onto the disk

dp the particle diameter P _p the particle density
V) the viscosity of the gas

d _{f is} the extension of the blades in the direction of the gas flow.

The second condition is the requirement that the number and length of the wings 14 and the thickness of the disc 13 such are that the total volume that is swept by the leading edges of all wings 14 in a certain time, is greater than the volume of the gas which is conveyed behind the disk 13 at the same time. This will make that entire gas volume passing through the disk 13 is swept over by the leading edges of the blades 14.

The thickness of the blades 14 and their speed of rotation will be

therefore determined on the basis of the first equation, while the number and length of the blades 14 are selected so that the second condition is met. The wings 14 can, as FIG. 3 shows, be flat or curved, and furthermore both evenly sx «rkueln άΐϋ aücii exfi u \ Xx uSOfii'äübönpi'öfxx beSxtZön.

During the operation of the disc 13 in the counterclockwise direction Direction, as shown in Figure 2, the device acts as an axial fan, which is in the chamber 10 located gas up behind the disc 13 promotes. The particles contained in the gas hit the guide surfaces of the Wing 14 on. If these are liquid particles, they adhere to the wings 14 and form one on them Liquid film, which flows radially outward in accordance with the centrifugal force and enters the recess 11, from from which the liquid is removed via the drain 12.

For the separation of solid particles from a gas, a liquid spray mist can be used in the flow towards the disk 13 generate, thereby removing the particles from the Liquid to be absorbed. Optionally, a liquid can also be supplied from the central area of the disc, in in which case the liquid forms a film on the wings to which the solid particles adhere, and at the same time serves as a flux for the removal of the particles that collect on the wings.

Claims (3)

■ · Claims for protection 1. device for the separation of particles from gas j characterized in _{that 3} a chamber (10) for the flow of the gas during operation and a disc (13) with a plurality of blades (14) inclined with their planes to the disc plane in such a way it is provided that the disk (13) forms a blower which transports the gas through the chamber (10) during operation, the chamber wall having an annular recess (11) into which the edge of the disk extends, and that a motor (15) for the rotary drive of the disk (13) and an outlet (12) for the absorption of particles separated by the centrifugal forces of the disk rotation in the recess (11) are provided, and that the gas volume passed through the device per unit of time is not greater than the product of the at the same time is the volume swept by the leading edge of each wing with the wing number. 2. Apparatus according to claim 1, characterized in that a liquid spray generator is provided on the upstream side of the disc (13). 3. Device according to claim 1, characterized in that ₃ is provided in the central region of the disc (13) has a liquid supply.