CS209369B1 - Apparatus for increasement of separatingability - Google Patents

Description

(54) Separation enhancement devices

The invention relates to a device for increasing the separation, in particular particles below 5 μm, in electric chamber separators.

The previously known electric chamber separators exhibit a high degree of separation, which is mainly achieved by providing a large settling surface of the settling electrodes, a low flow rate of the gases to be cleaned and an automatically controlled power supply. This is particularly true for the separation of fine-grained particles, which can be effectively separated only at lower concentrations or by prolonging their residence time in the active part of the separator. The consequence and disadvantage of the large deposition area required and the low flow rates of the gases to be cleaned are the relatively large dimensions of the separators.

Other possibilities of increasing the separation of electric chamber separators are known which do not impose their dimensions, on the contrary they are aimed at reducing their size. For this purpose, the optimal shape of settling and high voltage electrodes and their spacing is searched for, the uniform distribution of the flow rate of the purified gases by various installations at the entrance to the electric chamber separators is solved, means are investigated the treatment of gases prior to the purification using different additives or different conditioning methods. However, it is not yet possible to say that these solutions will produce generally valid results in increasing the separation in the required conditions.

It is an object of the present invention to achieve increased separation with the existing dimensions of the electric chamber separators, or to maintain the same separation with their reduced dimensions.

This is achieved according to the invention by a device consisting of tubes which are fixed to the support frame of the high-voltage electrodes. The diameter d of the tubes in relation to the pitch H of the settling electrodes is essentially d = H / 4 and the distance t between the tubes is t = (3 to 5) H.

This arrangement of the tubes in the support frame of the high-voltage electrodes achieves a relatively great increase in the separation velocity of the fine fractions of the dopant. According to a theoretical calculation, the separation velocity of particles of 1 μιη increases approximately three times, which means that at an initial separation of 90%, for example, an increase in separation of 99.9% is achieved.

An exemplary embodiment of the invention is shown in longitudinal horizontal section in the accompanying drawing.

In the plane of the longitudinal axis of the separation chamber 1 limited by two mutually parallel settling electrodes 2, tubes 4 are fastened to the support frame of the high-voltage electrode 3.

H of the settling electrodes 2 is 0.3 m. Tubes 4 with a diameter d = 0.075 m are mounted on the support frame at a distance t = 1 m.

By this built-in installation in the plane of the longitudinal axis of the separating chamber 1, increased turbulence of the flowing gas is created in the space between the high voltage electrodes 3 and the settling electrodes 2, whose intensity decreases in the direction from the axis k of the settling electrodes 2.

The theoretical solution showed that due to the decreasing amplitude of the turbulent fluctuations * the particles are transported in the same direction near the settling electrode 2. This movement is superimposed on the transport under the influence of electric forces, so that the resulting separation velocity, especially particles below 5 µm, increases.

Claims (1)

SUBJECT OF THE INVENTION A device for increasing the separation, particularly of particles below 5 µm in electric chamber separators, characterized in that it consists of tubes (4) which are fixed in the support frame of the high voltage electrodes (3) and their diameter d in relation to the spacing H of the settling electrodes ( 2) is essentially d = H / 4 and the distance t between the individual tubes (5) is t = (3 to 5) H.