NO135695B - - Google Patents

Description

The invention relates to a dust separator of the type described in the introduction to patent claim 1.

In the case of known such dust separators, for example as described

in US Patent 2,233,520, a cyclone chamber is used to supply contaminated gas to the rotating frustoconical member. Such a cyclone chamber will, of course, ensure a certain separation of dust particles before the contaminated gas is fed into the actual dust separator. The use of such a cyclone chamber will, however, entail the need for additional components and also require additional space.

The purpose of the present invention is therefore a. to provide a dust separator which takes up as little space as possible and which also has as simple a structure as possible. According to the invention, this can be solved by designing the dust separator in accordance with patent claim 1. By using an inlet pipe that leads the contaminated gas directly into the frustoconical, rotating member, a strong reduction in space requirements is achieved, compared to corresponding known dust separators, while dust out - the separator has an extremely simple structure. Further features of the invention will appear from the subclaim.

The invention will be described further by means of an embodiment shown in the drawing, in that: fig. 1 shows an axial section through a dust separator designed in accordance with the invention, while

fig. 2 shows a section along the line A-A in Fig. 1.

The central part of the dust separator shown in the example is a frustoconical member 1 which is supported by a double bearing 9 in a bearing housing 10 which is attached to a stand 12. Between the bearings 9 a pulley is placed for operation of the

frustoconical organ by means of a motor 11.

In the inner cavity of the frustoconical body 1, a supply pipe 3 for contaminated gas is introduced. This tube is led over into four radial branches, each of which is slightly bent so that the ends 2 form an angle with the inner part. These branch pipes are each provided with an outlet opening which is designed so that the gas flows out largely tangentially or parallel to the wall towards the inner wall of the frustoconical member 1.

Below the pipes 2, a radially directed screen or plate 4 is attached to the inlet pipe 3, which covers most of the opening in the frustoconical member 1.

In the example, the rotating parts of the dust separator are arranged with a vertical axis above a silo 5 for collecting separated dust particles. The silo 5 is covered with an annular lid 8, in that between the lid 8 and the truncated cone-shaped member 1 a sealing ring 7 is inserted which adjoins the lowermost part of the member.

A coaxial drain pipe for the purified gas is placed at the narrowest end of the organ 1.

In one example, the organ or rotor 1 was produced with a smallest and largest diameter of 80 and 200 mm respectively and given a speed of 2800 rpm. By calculating the centrifugal acceleration, it will be found that this will vary from 3440 m/s<2> to 8590 m/s 2 at the narrowest and the widest opening respectively.

Three tests were carried out with different contaminants, namely with cement, where 50% was below 200 mesh, dust from desulphurisation powder where 100% was below 325 mesh and with SiO dust from electrostatic filters with an assumed particle size of approx. 1 p.m. For all these experiments, the air velocity was in the range 10-20 m/s, with a dust concentration in the range 40-100 g/m^. 100%, 96% and 94% collection was then achieved respectively.

One can imagine that the dust separator shown in the example is modified in various ways within the scope of the patent claims. For example, it may be appropriate to move the outlet pipes 2 further up or into the rotor 1 and also reduce or increase the number of exhaust pipes.

The dust separator according to the invention has thus been shown to work very satisfactorily, both because it is simple and requires little space, and because it provides effective purification of different types of polluted gas. It has been shown that the tangential introduction of the gas leads to an efficient collection of the dust particles on the inner wall of the rotor 1. The invention also provides the opportunity to adapt the operation to different types of gas by varying the supply speed of the gas, the rotation speed and the diameter and the pitch angle of the rotor 1.

Claims (2)

1. Dust separator for cleaning polluted gases, where gas is supplied with an inlet pipe to clean the inner cavity of a rotating, truncated cone-shaped organ (l) so that dust particles are separated and made to move along the conical inner wall of the organ and are carried out at the organ's largest opening, and where a drain pipe (6) for purified gas is arranged at the organ's narrowest opening, characterized in that the inlet pipe (3) has at least one mouth opening which forms a largely tangential or wall-parallel outlet flow along the inner wall of the frustoconical body (1). 2. Dust separator in accordance with claim 1, characterized in that the mouth opening or mouth openings (at 2) of the inlet pipe (3) are located in the middle part of the organ's (1) cavity.