RU1801601C - Cyclone - Google Patents

Abstract

Usage: for dust collection in various industries, Summary of the invention: the cyclone has two axial nozzles for the release of purified gas, one of which passes through the cyclone cover, and the second through the lower part and the hopper. The lower exhaust pipe at the end located inside the cyclone body is equipped with a cylindrical nozzle equipped with external and internal longitudinal ribs. On the lateral surface of the nozzle, directly in front of the outer ribs (on the side of the gas inlet), there are holes. 1 s.p. f-ly, 3 ill.

Description

The invention relates to apparatus for collecting dust from a dust and gas stream and can be used in the chemical, metallurgical, construction and other industries.

An object of the present invention is to reduce the flow resistance by changing the design of the nozzle.

In FIG. 1,2,3 shows the proposed cyclone.

The cyclone consists of a cylindrical-conical housing 1 with a flat or screw cover 2, a tangential or spiral inlet pipe 3 located in the upper part of the housing 1 directly under the cover 2, two axial exhaust pipes - the upper 4 and lower 5, coaxial to the housing, the first of which comes out of the housing 1 through the cover 2, and the second through the hopper 6.

On the lower exhaust pipe 5, nozzles 7 are installed, equipped with external 8 and internal 9 ribs.

The nozzles 7 are made in the form of a cylinder with a diameter equal to the diameter of the lower exhaust pipe. Holes are located in front of each outer rib (from the side of gas accumulation) on the charge over its entire height (Figs. 2, 3).

The cyclone works as follows.

The dust and gas stream, passing through the inlet pipe 3 into the cyclone body, receives a spiral motion. As a result of this, particles are released from the flow onto the wall under the action of centrifugal force. The purified air enters the exhaust pipes 4 and 5, and the trapped particles into the hopper 6.

Part of the gas, which, as a result of inertia, has entered the lower part of the cyclone, rotates and punches around the nozzle. When flowing around a cylindrical nozzle finned outside, flow is decelerated, due to which the circumferential and axial components are reduced

(L

WITH

with

about

( about

flow rate. The role of such a nozzle is similar to that of the prototype, however, the design of the cyclone with the proposed nozzle is simplified. In addition, when the nozzle flows around the outer ribs in a rotational flow in the area in front of the ribs, local areas of increased pressure are created, which leads to a more intensive flow of gas through the openings inside the nozzle b and then into the lower exhaust pipe 5.Thus Of this, the hydraulic resistance of the claimed apparatus is lower than that of the prototype.

The installation of longitudinal ribs on the inner surface of the nozzle further reduces the hydraulic resistance of the apparatus by reducing the flow twist in the lower exhaust pipe.

Comparative tests of the cyclone and the prototype showed that its hydraulic resistance is lower than that of the prototype by 12-15%. And tests of a cyclone equipped with additional longitudinal ribs on the inner surface of the nozzle showed a decrease in hydraulic resistance by another 8-10%.

The proposed cyclone is planned to be introduced in 1991, as the second stage in charge heating plants in cyclone-heat exchangers in the production of sodium monochromate at a number of chromium compound plants. The annual economic effect from the introduction of the proposed devices instead of devices with a prototype design is 50 thousand rubles. The main share of this effect is due to savings. electricity.

Claims (2)

1. Cyclone containing cylindrical conical housing, inlet, axial upper and lower exhaust pipes, py. a wood collection case, in order to reduce hydraulic resistance, the lower exhaust pipe is equipped with a cylindrical nozzle of the same diameter with longitudinal ribs on the outer surface and with openings located directly in front of the ribs from the side of the incoming flow mi 2. The cyclone according to claim 1, with h and h and with the fact that it is equipped with longitudinal ribs placed on the inner surface of the nozzle.