RU2092247C1 - Air cleaning multiclone - Google Patents

Abstract

FIELD: gas cleaning devices; may be used in cleaning air taken from ambient atmosphere and its preparation for supply to compressors of gas-turbine engines to protect blade system from abrasive wear and inlet members from icing. SUBSTANCE: multiclone has air heating system whose air ducts run to air intake chambers. Headers of system are formed by closing the zone between tiers with walls. Each header is gas-connected with air intake chambers of upper and lower tiers. Supply of heated gas to zone of mixing with cold air is effected through longitudinal slots between end walls of air traps and headers. EFFECT: higher efficiency. 3 cl, 1 dwg

Description

 The invention relates to gas purification devices and can be used to clean air taken from the atmosphere and prepare it for supply to gas turbine compressors to protect the blade apparatus from abrasive wear, and the input elements from icing.

Known battery cyclones containing installed in tiers of cyclone elements, dust collecting chambers and clean gas exhaust manifolds [1]
Also known are battery cyclones containing cyclone elements installed in tiers in tube sheets forming pairwise air chambers of each tier, clean gas exhaust manifolds, dust collectors of tiers and sedimentary visors [2]
This device works effectively in the absence of ice formation on the surfaces of the cyclone elements and the suction line. With the formation of ice on cyclones, the passage openings in the cyclones decrease and the hydraulic resistance of the cyclone block sharply increases, which leads to an increase in pressure losses in the inlet line, a decrease in the efficiency of the suction unit and its unstable operation. In addition, cracking ice can cause mechanical damage to the turbine.

The objective of the invention is to prevent the formation of ice on the elements of the battery cyclone and the entire line
To solve the problem, the proposed device has an air heating system, the gas ducts of which are brought into the air intake. To increase the compactness of the system and reduce the metal consumption, the system collectors are formed by closing the walls between the tiers with the walls. The heated gas is supplied to the mixing zone with cold air through the longitudinal slots between the end walls of the air intakes and collectors.

 To increase the efficiency of the system, each collector is gas-connected to the intake chambers of two tiers of the upper and lower.

 The drawing shows a battery cyclone containing tiered intake chambers 1, cyclone elements 2, dust collectors tiers 3 and clean gas exhaust manifolds 4. The zones between the tiers are closed by panels 5 and form manifolds 6 for supplying heated gas, which is supplied through the slots A to the air chambers 1. Slots A are formed by the end walls 7 of the dust collectors and collectors 4 and the panels 5.

 The system operates as follows.

The heated gas or air is supplied to the collectors 6 and through the slots A is fed into the zone of the air intake chambers 1. The heated gas, mixed with the outside air, enters the cyclone elements 2. In this case, the solid particles separated by cyclones settle in the dust collectors 3, and the stream of clean air unfolds in cyclones at 180 ^o C and enters the manifolds of the clean gas 4.

 The supply of heated gas to the cyclone elements can increase the overall temperature of the cleaned air and prevent the formation of ice on the surfaces of the battery cyclone and the entire line and ensure the stable operation of the suction turbine.

 The implementation of the collectors for the transported heated air in the zones between the tiers allows to increase compactness and reduce the metal consumption of the gas cleaning device. The use of one collector for heated air in two tiers increases the efficiency of the system.

Claims (3)

 1. A battery cyclone containing tiered intake chambers and cyclone elements, clean gas exhaust manifolds, dust collectors of tiers, characterized in that it is equipped with an air heating system with heated gas ducts supplied to the intake chambers.  2. The cyclone according to claim 1, characterized in that it is equipped with panels covering the zones between the tiers with the formation of collectors for supplying heated gas, while gas ducts connect each collector for supplying heated gas with air intake chambers of the upper and lower tiers.  3. The cyclone according to claim 2, characterized in that the gas ducts are made in the form of gaps between the panels and the end walls of the dust collectors and the clean gas exhaust manifolds.