CS219780B1 - Filter for cleaning of pressure gases in gas pipelines - Google Patents

Abstract

A filter for cleaning compressed gases in gas pipelines with pressures from 100 kPa, capable of long-term operation. It consists of a larger number of consecutively arranged inserts with filter material. The inserts have bypass holes equipped with swinging cover plates, the initial resistance of which is greater than or equal to the resistance of the filter insert in a clean state.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter for the purification of gases in gas pipelines at pressures of 100 kPa.

Gas flowing in gas pipelines is contaminated by solid and liquid particles. Their weight ratio as well as the total pollution are very variable and are not usually known. Gas contamination is mainly a problem for compressors and causes them to wear quickly.

It is known to purify these gases by means of filters consisting of a charge of fibers of various materials, often twisted or entangled.

These cartridges tend to stick, especially when the gas contains a larger amount of liquid phase. SUMMARY OF THE INVENTION It is an object of the invention to provide a filter capable of long-term operation.

The filter element according to the invention is characterized in that the filter inserts, with the exception of the last one, have at least one bypass opening with a pivotable cover plate at the outlet end of the filter, which is dimensioned for an initial resistance greater than or equal to the filter element.

An advantage of the filter according to the invention is that there is a gradual fouling of the successive filter inserts and that it is possible to remove the separated impurities from the spaces below the individual inserts.

An exemplary embodiment of the invention is shown schematically in the drawing and shows a vertical section through a filter.

A filter is inserted into the conduit 1 through which the gas is conveyed, which consists of three inserts 2, 3, 4, arranged one behind the other. Each insert 2, 3, 4 consists of a steel frame into which a filter cartridge consisting of fibers, for example metal or plastic, is placed. In the first insert 2 in the flow direction, an opening 5 is formed in the upper part thereof, above which the pivot tabs 80 are provided with the cost of the cover plate 7. In the second insert 3 the opening is formed in its lower part and 6 sec. -The last insert 4 at the outlet end of the filter is (without hole). With a pipe diameter of 800 mm and a filter insert thickness

200 mm, there are 200 mm diameter bypass holes on the first two inserts, the openings S, 6 with cover plates 7, 8 being sized for an initial resistance greater than or equal to that of the filter element 2, 3 in a clean state.

The polluted gas flows through the liner and only. a small part goes through the hole. Even in this part of the gas, impurities are separated by impaction on the cover plate. If the gas to be cleaned contains mainly impurities in the form of a liquid aerosol, the trap flows down to the bottom of the filter where it can be discharged. If it is a dry aerosol or mixture, the cartridge gradually becomes clogged. The resistance of the insert increases and the gas flows more and more through the orifice. The cover plate diverts with the dynamic effect of the current and the flow increases. A side effect of the plate is also the dispersion of the gas, so that there is no impact of the gas stream into the next insert at one point.

There may also be a so-called liner breakage, ie a state in which a clean portion of the surface through which gas flows at high velocity is formed in the liner. In this state, the cartridge ceases to perform the filtration function and the gas cleaning takes over the following cartridge, which is still clean because relatively clean gas has so far passed through it. In this way, insertion of the insert proceeds up to the last insert which is without an opening. Then the filter must be removed and cleaned.

Since the pressure loss of the liner is small, of the order of 10 ³ Pa and the available pressure is of the order of hundreds of kPa, the number of liners can be considerable. The area of the bypass openings may be 30 to 50% of the total cross-sectional area of the pipe.

Claims (1)

A filter for the purification of pressurized gases in gas pipelines consisting of several filter cartridges which are arranged one after the other, characterized in that the cartridges (2, 3), except for the last one at the outlet end of the filter, are provided with at least one by-pass opening (5, 6) with a pivotable cover plate (7, 8) which is designed for an initial resistance greater than or equal to that of the filter element [2, 3] in a clean state. l sheet of drawings