RU2761711C1 - Air-cleaning device - Google Patents

Abstract

FIELD: mechanical engineering.SUBSTANCE: invention relates to the field of mechanical engineering and can be used in energy, gas, oil and other industries as a storage-type air cleaning device (ACD) for cleaning air supplied to gas turbine and compressor plants (GTP) in the amount of 84 thousand m3/h up to 165 thousand m3/h. The device consists of two modules, upper 1 and lower 2. In the upper module 1, between the air filter units 8, there is a passage 9. Blocks of air filters 8 are located inversely and include sets of filter elements 6, each of which consists of a moisture separator and filters for coarse and fine cleaning. The number of filter element sets in each air filter unit is determined by its dimensions. The protective cap is equipped with air intake shields 5, which are made with solid side walls and equipped with a protective mesh 10 located in the lower part of the air intake shields. An anti-icing system 3 is additionally installed in the upper module 1, supplying hot air from the axial compressor of the turbine of the gas turbine installation to the upper module 1 of the air cleaning device, made in the form of pipelines of variable cross-section and includes two silencers and a distributing T-type manifold. In the end wall of one of the air filter units, there are two bypass valves 7.EFFECT: use of the invention allows to optimize the aerodynamic characteristics of the flow path, to reduce the dimensions and weight of the device while maintaining its performance, to increase the durability of the filter elements, to reduce the volume of thermal air taken from the engine compressor for its own needs, which increases the efficiency of gas turbine engines.4 cl, 2 dwg

Description

The invention relates to the field of mechanical engineering and can be used in energy, gas, oil and other industries as a storage-type air cleaning device (HEU) for cleaning air supplied to gas turbine and compressor plants (GTU) in the amount of 84 thousand m ³ / h up to 165 thousand m ³ / h.

The air cleaning device is one of the main elements of the air intake system and is intended for intake and cleaning of atmospheric air from dust particles and further supply to the intake tract of the gas turbine unit. Dust removal protects the compressor blades from abrasive wear, reducing deposits in the gas turbine engine flow path, and also to protect the gas-air path (GWT) of the gas turbine unit from precipitation and icing.

Known air cleaning device (RF patent No. 2263806, F02C 7/052, 10.11.2005), containing grouped in blocks and fixed on the outer edges of the carrier body perpendicular to it in several tiers, first stage filters, consisting of multicyclones, receiving chambers and dust collectors, located inside housings, air filter units of the second stage, a means of protecting filters from direct ingress of atmospheric precipitation, a system for preventing icing, as well as a system for removing dust accumulating in dust collectors of filters, and the supporting body is made in the form of a truncated pyramid, a means of protecting filters from direct ingress of precipitation is in in the form of a tent-type protective cap, while the lower edge of the protective cap is located below the lower tier of the first stage filter blocks, and in the area of the upward flow of external air there are registers of the anti-icing system for distributing hot air, installed with the ability to move into the plane and, perpendicular to this flow, parallel to the front of the upstream filter units of the first stage and connected to a pipeline supplying hot air from the engine compressor by means of a telescopic device.

As disadvantages, the horizontal arrangement of air filter units at floor level can be noted, which complicates their installation and maintenance; anti-icing system registers are located low, which makes it possible to blow out hot air with a side wind; the first stage of cleaning, represented by multi-cyclone units, has a large mass.

A known system for filtering cyclic air in a complex air-cleaning device of a gas turbine plant (patent No. 2669428, F02C 7/052, 11.10.218), containing a filter block installed along the direction of the incoming air in two rows parallel to each other, while the second row of the filter block has a channel in the central region, the outer ends of the first row of the filter unit are connected by means of airtight partitions to the inner ends of the second row of the filter unit, extending into the channel of the central region, and when the filtration system is installed in the duct between the walls of the air duct and the outer ends of the first row of the filter unit, channels are formed for air passage, and the outer ends of the second row of the filter unit are connected to the walls of the air duct.

However, this type of air cleaning device is applicable only for units with a horizontal gas-air duct, while a number of disadvantages can be noted:

- increased resistance due to a sharp narrowing and expansion of the air channels;

- uneven load on the air filter units;

- additional consumption of metal for the installation of partitions;

- high labor intensity of manufacture, inconvenience of maintenance of air filter units;

- high air intake speed and, as a result, the absence of gravitational cleaning.

An air cleaning device is known (RF patent No. 2727735, F02C 7/052, 07/23/2020), chosen by the authors as a prototype, containing air filter units grouped into modules and fixed in the upper module, a means of protecting air filters from direct atmospheric precipitation, in the form a tent-type protective cap, while all modules are made in the form of rectangular prisms containing side walls with inner and outer skins, assembled on rectangular frames with angular and vertical posts, bevels of a part of the flanges, forming assembled flanges intended for flange connections, a gap between the skins it is filled with thermal insulation, in the lower module on one of the walls a through hole is made for installing the air intake of the gas turbine engine of the drive of the gas pumping unit.

The disadvantages of this closest to the claimed technical solution are as follows:

- additional elements in the gas-air duct create an oncoming step to the air flow and, as a result, additional resistance;

- additional elements are a place of accumulation of unseparated dust particles;

- installation of two entrances to the upper module for access to the air filter units, and, as a consequence, a decrease in the reliability of the device as a whole;

- the use of a bolted joint for fastening the inner lining, which is unreliable in the presence of constant vibration caused by the operation of the GTU.

When creating an air cleaning device intended for use as part of an air intake system, both with a horizontal GWT and with a vertical shaft, the technical problems of obtaining a compact air cleaning device with increased efficiency of cleaning the incoming air were solved.

The technical result achieved by the invention is to optimize the aerodynamic characteristics of the flow path and reduce the dimensions and weight of the device while maintaining its performance, increase the durability of the filter elements by increasing the effectiveness of protection against atmospheric precipitation and reducing the tendency to icing of the elements of the flow path of the device, as well as reducing the volume of thermal air taken from the engine compressor for own needs, which increases the efficiency of gas turbine engines.

The specified technical result is achieved by the fact that the air cleaning device consists of grouped modules, in the upper of which there are air filter blocks, and a means of protecting them from direct atmospheric precipitation, made in the form of a tent-type protective cap, while the grouped modules are made in the form of rectangular prisms containing side walls with inner and outer skins, assembled on rectangular frames, and the gap between the skins is filled with thermal insulation, and the air cleaning device consists of two modules, in the upper one of which there is a passage between the air filter units, the air filter units are located inversely and include sets of filter elements, each of which consists of a moisture separator and filters of coarse and fine cleaning, while the number of sets of filter elements in each block of air filters is determined by its dimensions. The protective cap is equipped with air intake shields, which are made with solid side walls and equipped with a protective mesh located in the lower part of the air intake shields. An anti-icing system is additionally installed in the upper module, supplying hot air from the axial compressor of the gas turbine turbine to the upper module of the air cleaning device, made in the form of pipelines of variable cross-section and includes two silencers and a distributing T-type manifold. In the end wall of one of the air filter units, there are two bypass valves. Air filter blocks in the module are located on the larger side of the module, thereby placing a larger number of filter elements in each block. The horizontal branch pipe of the T-shaped collector of the anti-icing system is located in the air intake hood, and the vertical branch pipe is located in the air intake zone of the inverted air filter units. The distributing T-type manifold is made of stainless steel strip by winding.

The drawings show the structure of the air cleaning device, where in FIG. 1 shows a general view of the air cleaning device, FIG. 2 shows an air cleaner without roof sheathing and air intake shields.

The air cleaning device consists of two modules, upper 1 and lower 2. The upper module 1 is equipped with air intake shields 5 with a protective mesh 10, two blocks of air filters 8 with sets of filter elements 6. In addition, an anti-icing system 3 and a service platform 4 are installed in the upper module. and the air filter units 8 are separated by a passage 9. In one of the air filter units 8 there are two bypass valves 7.

In practice, the air cleaning device works as follows. Atmospheric air with impurities in it enters under the lower edge of the air intake canopies 5 of the upper module 1 at a rate at which a significant part of the impurities falls under the predominant action of gravitational forces. When passing through the protective nets 10 placed in the visors, the air is cleared of large particles and foreign objects, and the air flow is leveled using the solid side walls of the visors 5, and, mixing with hot air from the anti-icing system 3, enters through the passage 9 to the air filter units 8 After passing through the filter elements 6 located in the air filter units 8, the air enters the lower module 2, from where it enters the gas-air duct for supply to the axial compressor of the GTU. When conditions of increased resistance of the air cleaning device arise, bypass valves 7 are automatically opened and air flows through them bypassing the air filter units 8. Outside, on the upper module 1, there is a service platform 4 for access to the inside of the module and maintenance of the filter element blocks.

The design of the upper module 1, made with a passage 9 inside and placing inversely a larger number of sets of filter elements 6, determined by the dimensions of the upper module 1, makes it possible to reduce the load on the air filter units and increase the dust holding capacity of the air cleaning device. As a result, filter elements 6 are replaced less often, and the resource indicators of the unit are improved.

The number of sets of filter elements 6 in the air filter units 8 was increased by changing their layout. Instead of being located on the short side, the air filter units 8 are installed on the long sides of the module 1, thereby increasing their dimensions, which made it possible to accommodate a larger number of sets of filter elements 6, as well as place several sets of filter elements 6 at the ends of the air filter units 8.

Changing the arrangement of air filter units 8 provides a significant increase in the total area of the cleaning surface, which reduces the resistance of the gas-air path, and, as a consequence, increases the efficiency of the gas turbine plant.

The location of the air filter blocks 8 on both sides of the central passage in the upper module 1 guarantees an even distribution of heat from the anti-icing system, as well as a uniform air flow after passing through the air filters 8.

The installation of air intake shields 5, made with solid side walls and equipped with a protective mesh 10, is necessary to create an air channel that evens out the air flow and protects it from the effects of an oblique wind, as well as to prevent the hot air coming from the anti-icing system 3 from blowing out.

The T-shaped arrangement of the distributing manifold of the anti-icing system 3, in which the horizontal branch pipe of the collector is located in the air intake canopy, and the vertical one in the air intake area of the sets of filter elements 6, located inversely, allows to evenly distribute hot air from the anti-icing system 3 in the cycle air flow.

The use of the invention makes it possible to optimize the aerodynamic characteristics of the flow path, to reduce the dimensions and weight of the device while maintaining its performance, to increase the durability of the filter elements by increasing the effectiveness of protection against atmospheric precipitation and reducing the tendency to icing of the elements of the flow path of the device, as well as reducing the volume of thermal air taken from the compressor of the engine for own needs, which provides an increase in the efficiency of gas turbine engines.

Claims (4)

1. An air cleaning device consisting of grouped modules, in the upper of which there are air filter blocks, and a means of protecting them from direct atmospheric precipitation, made in the form of a tent-type protective cap, while the grouped modules are made in the form of rectangular prisms containing side walls with inner and outer skins, assembled on rectangular frames, and the gap between the skins is filled with thermal insulation, characterized in that the air cleaning device consists of two modules, in the upper of which there is a passage between the air filter units, the air filter units are arranged inversely and include sets filter elements, each of which consists of a moisture separator and coarse and fine filters, while the number of sets of filter elements in each air filter unit is determined by its dimensions; the protective cap is equipped with air intake shields, which are made with solid side walls and equipped with a protective mesh located in the lower part of the air intake shields; an anti-icing system is additionally installed in the upper module, supplying hot air from the axial compressor of the gas turbine turbine to the upper module of the air cleaning device, made in the form of pipelines of variable cross-section and includes two silencers and a distributing T-type manifold; in the end wall of one of the air filter units there are two bypass valves. 2. An air cleaning device according to claim 1, characterized in that the air filter blocks in the module are located on the larger side of the module, thereby placing a greater number of filter elements in each block. 3. Air cleaning device according to claim 1, characterized in that the horizontal branch pipe of the T-shaped collector of the anti-icing system is located in the air intake hood, and the vertical branch pipe is located in the air intake zone of the sets of filter elements located inversely. 4. Air cleaning device according to claim. 1, characterized in that the distributing T-type manifold is made of stainless steel strip by winding.

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