RU173378U1 - GPU UNDER AIR BLOCK UNDER THE CASING OF A GPU GAS-TURBINE INSTALLATION - Google Patents

Abstract

The air injection unit under the casing of the GPU gas turbine unit is designed to pump air under the casing of the gas turbine unit. The air injection unit contains sequentially vertically mounted from top to bottom: a ventilation umbrella; silencer; two parallel mounted axial fans and a common confuser for both fans, located in a single housing, contains a diffuser common for both fans, located between the ventilation umbrella and the muffler, equipped with flexible compensator inserts located at the inlet and outlet of each fan, check valves for each fan placed in front of the confuser after the flexible insert-compensator at the outlet of the fan, also contains a flexible insert-compensator located after the confuser, and a normally open electrically operated fire valve located after this flexible insert-compensator before entering the casing of a gas turbine installation. The case of the air injection unit is made of frame, sheathed with three-layer soundproofing panels. The panels are removable and / or opening. In the air injection unit, fans, check valves and fireproof valves are used in explosion-proof design. The air injection unit has a compact design with improved performance by providing protection against vibration and fire, as well as by facilitating installation and reducing installation time.

Description

The utility model relates to ventilation equipment, and more specifically to supply ventilation devices, in particular to air injection devices under the casing of a gas turbine installation of a gas pumping unit or power plant, including for cooling a gas turbine engine.

At present, gas pumping units (GPU) and power plants using gas turbine installations, including input and output devices and an engine, are housed in a special casing, which is necessary to protect the gas turbine against noise, as well as to protect the installation from atmospheric influences. Such an aggregate is described, for example, in the patent for utility model RU No. 23639 (publ. 06/27/2002) or in the patent for invention US No. 6082094 (publ. 04.07.2000). During operation, the gas turbine engine radiates heat under the casing, this reduces the efficiency of the engine, so the engine in such casings must be cooled, excess heat must be removed from the casing, overheating of the engine leads to an emergency shutdown of the gas compressor unit or power plant. In addition, in such installations there is a danger of explosion and fire due to gas leaks that may occur under the casing of the gas turbine installation. In this regard, safety standards, for example, WFD 39-1.8-055-2002 of PJSC Gazprom, provide for forced ventilation (purge) of the casing of a gas turbine installation, including when the engine is idle, for example, when preparing it for start-up.

For ventilation under the casing of a gas turbine installation, exhaust fans, supply fans or ventilation units, ventilation systems are used.

For example, ventilation systems using the effect of ejection by exhaust gases of a gas turbine plant to ventilate the casing with atmospheric air are known, but such systems are unreliable, moreover, they only work when the engine is running, when there are exhaust gases. For example, the ventilation system of the compartment of a gas turbine engine of a container gas pumping unit according to the patent for utility model RU No. 40399 (published on September 10, 2004). In addition, such systems do not meet the stringent requirements of regulatory documents of the Russian Federation and departmental documents, for example, PJSC Gazprom.

A known cooling system for a gas turbine engine of a gas pumping unit according to the invention patent RU No. 2267019 (published on December 27, 2005), comprising an air intake, an axial fan, a flexible expansion joint, and a drive flap with rotary shutters, while the fan is mounted on the roof of the GPU container (hangar) and the louvre shutter - on the heat and sound insulating casing of the gas turbine engine. The main disadvantage of such a system is the lack of redundancy (failure of the cooling system will lead to an emergency shutdown of the gas compressor unit), as well as the lack of fire protection.

The ventilation unit according to the patent for utility model RU No. 115843 (publ. 05/10/2012) “Gas pumping unit” containing a block box (block container) mounted on the roof of a GPU turbo block and supplying air under the casing of a gas turbine engine is also known. Such a block box has doors and an internal room for servicing the installation of the ventilation unit, equipped with life support systems - heating, ventilation and lighting. The disadvantage of such a ventilation unit is its large size and weight.

From the same patent RU No. 115843, a ventilation unit in a lightweight version without a block box is known with two axial fans installed in parallel, a common confuser, an integrated silencer, a ventilation umbrella (weather cover) with rotary dampers (blinds) with electric drives. At the same time, the confuser common to both fans is made with a box-shaped case (container), on the roof of which there are separately, each in its own case, fans are installed, over which there is a ventilation umbrella common for both fans with rotary louvres at the inlet of each fan, while the ventilation unit mounted on the roof of the turboblock container and connected to the casing of the gas turbine engine with an air duct (Fig. 3, 4, 9, 26, 27 of the description of patent RU No. 115843). This technical solution is taken as the closest analogue of the claimed utility model. This device has two fans, one of which can be working, and the other redundant, the vertical design of the ventilation unit allows to reduce its size, but it is still not compact enough. The disadvantage of this device is the large size of the case of the confuser, the confuser itself, the ventilation umbrella. Large sizes are also due to the location of each fan in a separate housing. The installation of such a device due to the large size, the presence of several separately mounted units - a box-shaped case with a confuser, fans in separate cases, a ventilation umbrella with dampers - is difficult and time-consuming. Due to the large size, such a ventilation unit cannot be installed directly on the roof of the casing of a gas turbine installation. In addition, such a ventilation unit is not protected from vibration arising from the operation of the fans; this vibration negatively affects both the unit itself and the gas turbine unit. The ventilation unit does not have sufficient protection against fire that may occur under the casing of a gas turbine installation.

The authors were faced with the task of creating a compact design of an air injection unit under the casing of a gas turbine unit with improved operational characteristics by providing protection from vibration and fire, as well as by facilitating installation and reducing installation time. The proposed device is intended primarily for a gas pumping unit, however, it can be used for power plants with gas turbine engines.

To achieve the specified technical result, an air injection unit under the casing of the gas turbine unit of the GPU (hereinafter referred to as the air injection unit), comprising vertically installed successively from top to bottom: a ventilation umbrella (weather cover); silencer; two parallel mounted axial fans; and the confuser common for both fans, located in a single housing, contains a diffuser common for both fans, located between the ventilation umbrella and the muffler, is additionally equipped with flexible compensator inserts located at the inlet and outlet of each fan, non-return valves for each fan located in front of the confuser after the flexible insert-compensator at the outlet of the fan, also contains a flexible insert-compensator located after the confuser, and the fire damper is normally open (fire retardant) with electric drive, located after this flexible insert-compensator before entering the casing of the gas turbine installation.

It is advisable to make the casing of the air injection unit frame, sheathed with three-layer soundproof panels, it is also advisable to make the panels removable and / or opening.

It is advisable to use fans, check valves and fireproof in explosion-proof performance.

The device operates as follows.

Placement of a silencer, both fans, flexible compensator inserts, a check valve and a fire damper, a confuser and a diffuser in a single housing can significantly reduce the size and weight of the air injection unit and increase its compactness. The placement of both fans in one housing allows the use of a smaller confuser, silencer compared to the prototype. In addition, a common diffuser allows you to install a small ventilation umbrella on the unit. The diffuser serves to distribute the air flow to two fans, while reducing the supply air speed and, accordingly, the dynamic pressure in front of the muffler and fans. The decrease in speed and dynamic pressure in front of the fans allows the use of fans with a reduced wheel size, which, in turn, helps to reduce the size of the device. Compactness allows you to place the air injection unit directly on the roof of the casing of the gas turbine installation. In normal mode, either of the two fans delivers air under the casing of the gas turbine unit, the second remains in reserve. If the first fan fails, the second fan is automatically turned on. The air supply is controlled by the automatic control of the fan speed by the control system. This made it possible to abandon the louvre shutter controlling the amount of air supplied. To block the air channel of the backup (idle) fan and prevent the air flow from changing direction, a non-return valve is used, which automatically opens when the air is supplied, when the air is stopped, it automatically closes, and this valve does not contain a drive, unlike the control damper, and more it is compact due to the lack of a drive, and also fireproof, including due to its explosion-proof design, which does not allow the formation of sparks during its operation. Flexible insert-compensators allow you to remove the vibration arising from the operation of the fans, as well as balance the thermal expansion. The fire damper automatically closes the air channel of the air injection unit in case of fire, and the fans stop working thanks to the automatic control system of their drives, which does not allow the fire to spread. The explosion-proof design of the fans and the fire damper increases their safety, including fire protection. The operation of the devices of the air injection unit is controlled by an automatic control system associated with the automatic control system of a gas turbine unit and a gas turbine unit. The frame case with removable and / or opening three-layer soundproof panels facilitates and accelerates the installation of equipment during the production of the unit, as well as facilitates its maintenance during operation. In addition, a single case with three-layer soundproof panels better protects the equipment located inside from environmental influences, thanks to them the air injection unit can work at extremely low temperatures - up to minus 60 ° С and in heat up to plus 40 ° С. The panels contain solid steel sheets on the outside, perforated steel sheets on the inside, between which a non-combustible sound-absorbing and heat-insulating material is laid, perforation helps to reduce noise from the air injection unit.

Due to the compact size of the air injection unit, it is transported fully assembled, in full factory readiness, and is easily and quickly mounted. The rest of the work of the proposed device is similar to the work of the prototype.

The implementation of the air injection unit, containing sequentially vertically installed: ventilation umbrella; silencer; two parallel mounted axial fans and a common confuser for both fans, in a single housing containing a common diffuser for both fans located between the ventilation umbrella and the silencer, equipping the air injection unit with flexible inserts-compensators located at the inlet and outlet of each fan, non-return valves for each fan, placed in front of the confuser after a flexible insert-compensator at the outlet of the fan, a flexible insert-compensator located after the confuser, normally open electrically operated fire damper located after this flexible compensator insert before entering the casing of the gas turbine installation, frame-mounted air injection unit housing with removable and / or opening three-layer soundproof panels, the use of fans, non-return and fire damper valves in explosion-proof design provides a compact design air injection unit under the casing of the gas turbine unit GPA with improved performance E by providing protection against vibration and fire, and also due to facilitate installation and reduce assembly times.

The proposed design is illustrated by drawings.

In FIG. 1 shows a general view of a gas turbine installation with the proposed air injection unit, FIG. 2 shows a general view of the air injection unit (a ventilation umbrella is conventionally not shown), FIG. 3 is the same as in FIG. 2 in a perspective view, in FIG. 4 shows the pneumatic diagram of the air injection unit, where 1 is the casing of the gas turbine installation, 2 is the air injection unit, 3 is the ventilation umbrella, 4 is the air ducts for removing the injected air from under the casing of the gas turbine installation 1, 5 is the casing of the air injection unit 2, 6 - a diffuser, 7 - a muffler, 8 - a flexible insert-compensator, 9 - a fan, 10 - a confuser, 11 - a fire damper, 12 - a fire damper electric actuator 11, 13 - a body frame 5, 14 - a three-layer soundproof panel, 15 - a non-return valve . In the particular embodiment of the utility model shown in the figures, the air injection unit 2 is located directly on the roof of the casing of the gas turbine unit 1, however, it can be placed differently and can be connected to the casing of the gas turbine unit 1 with an air duct. The housing 5 of the air injection unit 2 has a power frame 13 on which the equipment is installed, as well as external three-layer soundproofing panels 14, the panels 14 are fixed to the frame 13 using removable clips and / or hinges and have locks. Connections in the frame 13 are made by welding or using rigid detachable connections, for example, bolted. Case 5 is equipped with loops for lifting devices. In the particular example shown, the fire damper 11 is equipped with two electric actuators 12. Since in the shown example the air injection unit 2 is installed directly on the roof of the casing of the gas turbine installation 1, there is a flange in the lower part of the casing 5 (at the outlet of the fire damper), and on the roof of the casing of the gas turbine installation 1 - mating flange (not shown).

Distinctive features of the proposed device from the above known, closest to it, is that the air injection unit is located in a single housing, contains a common diffuser located between the ventilation umbrella and the muffler, equipped with flexible inserts-compensators located at the inlet and outlet of each fan , non-return valves for each fan, placed in front of the confuser after a flexible insert-compensator at the fan outlet, also contains a flexible insert-compensator, positioning fluoropyridinium after the contractor and the fire damper normally open electrically, located after the insertion flexible compensator in front of the gas turbine unit casing. In the particular case of the utility model, the case of the air injection unit can be made frame with soundproof panels removable and / or opening, in another case, fans, check valves and fireproof in explosion-proof design can be applied.

The combination of all these essential features made it possible to create a compact design of the air injection unit under the casing of the GPU gas turbine unit, which provides improved operational characteristics compared to the prototype by providing protection from vibration and fire, as well as by facilitating installation and reducing installation time.

The claimed technical solution of the air injection unit can be implemented in industrial production using standard equipment, modern materials and technologies. The air injection unit is assembled from standard electrical, ventilation equipment and devices, standard means of regulation, control and automation are used, in its manufacture standard metal structures, metal, construction materials are used. Explosion-proof axial fans FTDE type manufactured by Lada-Flekt CJSC, explosion-proof check valves type AZE manufactured by Ferrum LLC and fireproof normally open explosion-proof fireproof valve AZE-MF (90) -B-4.0- were used in the implemented air injection unit. BUT production of LLC Ferrum, flexible inserts-compensators type FTDZ manufactured by CJSC Lada-Flekt.

The authors developed the design of the air injection unit under the casing of the GPA gas turbine unit, which was successfully implemented in the block for air injection and cooling the gas turbine engine of the gas turbine unit GPA-1001 "Irtysh".

Claims (4)

1. The air injection unit under the casing of a gas turbine installation of a gas pumping unit (GPU), comprising successively vertically installed from top to bottom: a ventilation umbrella; silencer; two parallel mounted axial fans and a common confuser for both fans, characterized in that it is located in a single housing, contains a diffuser common for both fans, located between the ventilation umbrella and the muffler, equipped with flexible compensator inserts located at the input and output of each fan, reverse valves for each fan, located in front of the confuser after a flexible insert-compensator at the outlet of the fan, also contains a flexible insert-compensator located after onfuzora and fire damper normally open electrically, located after the insertion flexible compensator in front of the gas turbine unit casing. 2. The air injection unit according to claim 1, characterized in that its casing is made of a frame, sheathed with three-layer soundproof panels. 3. The air injection unit according to claim 2, characterized in that the panels are removable and / or opening. 4. The air injection unit according to claim 1, characterized in that the fans, check valves and fireproof in explosion-proof design are used.

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