KR20110057997A - Combustion gas treatment device for hot-firing test of gas generator - Google Patents

Abstract

PURPOSE: A combustion gas treatment device for a burn-in test of a gas generator is provided to enable convenient connection and separation between a gas generator and a noise reducing device by employing a connector including a bellows. CONSTITUTION: A combustion gas treatment device for a burn-in test of a gas generator comprises a connector(210) and a liquid nitrogen feeder(220). The connector is installed between a gas generator and a noise reducing device to block the inflow of external gas. The liquid nitrogen feeder supplies liquid nitrogen and water to the inside of the connector. The liquid nitrogen feeder comprises a liquid nitrogen supply flange(223) which is installed on an end of the connector and a liquid nitrogen injection hole(221) which is formed on the liquid nitrogen supply flange as being connected to the inside of the connector.

Description

Combustion Gas Treatment Device for Hot-firing Test of Gas Generator

The present invention relates to a wake gas treatment apparatus for a gas generator combustion test.

The gas generator is one of the main components of the liquid rocket engine, and serves to drive a turbine of a turbopump which supplies propellant to the combustor. To this end, the gas generator uses kerosene and liquid oxygen as propellants to supply the burned gas to the turbine. To prevent thermal damage to the turbine due to high temperatures, the gas generator operates in fuel-rich conditions to lower the temperature of the wake gas (combustion gas) even slightly. This hot wake gas consists of many partially vaporized kerosines as well as CO ₂ and H ₂ O.

The gas generator ground combustion tester, like the combustor, is used to reduce the noise caused by the wake gas. Most noise reduction devices supply water to the wake gas, reducing the speed of the high speed and high temperature wake gas and lowering the temperature to release it to the atmosphere.

The noise reduction device according to the prior art serves to lower the speed and temperature of the wake gas by supplying water to the wake gas of the gas generator. However, the gas generator and the noise reduction device according to the prior art have the following problems.

1 is a view showing a state in which the gas generator and the noise reduction device is disposed in the existing gas generator combustion test.

As shown in FIG. 1, the gas generator and the noise reduction device according to the prior art are separated from each other by a certain distance so that the wake gas generated in the combustion test of the gas generator and the water injected from the noise reduction device in the air Air is sucked into the noise reduction device together. If oxygen and wake gas in the air drawn into the noise reduction device are mixed and suitable ignition conditions are established, an explosion may occur inside the noise reduction device. If the wake gas explodes inside the noise suppression system, there is a risk of injury to humans as well as damage to the gas generator or the ground combustion test equipment.

The present invention has been made to solve the problems as described above, the problem to be solved by the present invention is a gas generator combustion test to ensure that the ground combustion test of the gas generator used in the liquid rocket engine is performed with high stability It is to provide a wake gas treatment apparatus. More specifically, the wake gas treatment apparatus for the gas generator combustion test which prevents the air sucked into the noise reduction device and supplies the inert liquid nitrogen lowers the possibility of reignition of the wake gas, thereby increasing the stability of the gas generator combustion test. To provide.

Another problem to be solved by the present invention is to provide a wake gas treatment apparatus for a gas generator combustion test that facilitates the connection and separation of the gas generator and the noise reduction device using a bellows device.

The wake gas treatment apparatus for a gas generator combustion test according to an embodiment of the present invention for achieving the above object includes a connecting jig, a liquid nitrogen supply device. The connecting jig is installed between the gas generator and the noise reduction device to block external gas inflow. The liquid nitrogen supply device supplies liquid nitrogen into the connection jig.

The liquid nitrogen supply device may supply water together with liquid nitrogen into the connection jig.

The liquid nitrogen supply device may include a liquid nitrogen supplying flange installed at one end of the connection jig, and a plurality of liquid nitrogen injection holes formed in the liquid nitrogen supplying flange so as to penetrate into the connection jig.

The liquid nitrogen supply device may include a liquid nitrogen manifold installed on the liquid nitrogen supply flange to surround the plurality of liquid nitrogen injection holes.

The connecting jig may further include a bellows.

The connecting jig may further include an inner plate installed to surround the bellows by fixing the cantilever in the form of a cantilever inside the connection part with the bellows.

At least one pair of wake gas treatment apparatuses for a gas generator combustion test according to an embodiment of the present invention is provided to be coupled to a connection portion of the gas generator, the liquid nitrogen supply device, the connection jig, the bellows, and the noise reduction device. It may include a flange, a plurality of assembly bolts and nuts.

According to the present invention, by installing a connecting jig to block the inflow of external gas between the gas generator and the noise reduction device, to prevent the air sucked into the noise reduction device during the gas generator combustion test, oxygen in the air is unburned in the noise reduction device It is mixed with the fumes of the gas to prevent the risk of explosion.

In addition, it is formed to include a liquid nitrogen supply device in the connecting jig to supply the inert liquid nitrogen and water through the inside of the connecting jig, the inert liquid nitrogen is vaporized and mixed with gaseous nitrogen to reduce the possibility of re-ignition of the wake gas And liquid nitrogen and water lower the temperature inside the noise suppressor, increasing the stability of the gas generator combustion test.

In addition, the connection jig is formed to further include a bellows, it is easy to connect and disconnect the gas generator and the noise reduction device.

In addition, the connecting jig is fixed in the form of a cantilever inside the connection portion with the bellows, and further includes an inner plate installed to surround the bellows, thereby protecting the bellows from being brought into direct contact with the bellows by the hot wake gas. Can prevent thermal damage.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The wake gas treatment apparatus for the gas generator combustion test according to the embodiment of the present invention is a device installed between the gas generator and the noise reduction device for the treatment of the wake gas generated in the gas generator combustion test.

FIG. 2 is a diagram illustrating a combined state of a wake gas treatment device, a gas generator, and a noise reduction device for a gas generator combustion test according to an embodiment of the present invention, and FIG. 3 is a liquid nitrogen supply device 220 of FIG. 2. ) Is an enlarged view of the dotted line display portion, and FIG. 4 is a cross-sectional view taken along the line IV-IV of FIG. 2.

As shown in FIG. 2, the wake gas treatment apparatus 200 for a gas generator combustion test according to an exemplary embodiment of the present invention includes a connection jig 210 and a liquid nitrogen supply device 220. The connection jig 210 is installed between the gas generator 110 and the noise reduction device 120 to block external gas inflow. The liquid nitrogen supply device 220 supplies the liquid nitrogen into the connection jig 210.

And the flange 213-1 for removing and attaching the wake gas treatment apparatus 200 for the gas generator combustion test according to an embodiment of the present invention to the noise reduction device 120, noise reduction device 120 Can be attached by welding. For the gas generator combustion test according to an embodiment of the present invention by fastening the flange 213-2 provided at the end of the flange 213-1 and the connecting jig 210 with the assembling bolt and nut 215. The wake gas treatment device 200 may be attached to the noise reduction device 120.

By installing a connecting jig 210 to block external gas inflow between the gas generator 110 and the noise reduction device 120, oxygen in the air is prevented by blocking the air sucked into the noise reduction device 120 during the gas generator combustion test. Is mixed with the unburned wake gas inside the noise reduction device 120 can prevent the risk of explosion.

In addition, the liquid nitrogen supply device 220 may supply water together with the liquid nitrogen into the connection jig 210.

2 and 3, the liquid nitrogen supply device 220 is a liquid nitrogen supply flange 223, which is installed at one end of the connecting jig 210, the liquid nitrogen so as to penetrate into the interior of the jig 210 It may include a plurality of liquid nitrogen injection holes 221 formed in the supply flange 223.

2 and 3, the liquid nitrogen supply device 220 is a liquid nitrogen manifold 225 installed in the liquid nitrogen supply flange 223 to surround the plurality of liquid nitrogen injection holes 221. ) May be included.

As shown in FIG. 4, the liquid nitrogen injection holes 221 are formed at regular intervals in a circular shape in the liquid nitrogen supply flange 223 so that the liquid nitrogen supplied through the liquid nitrogen injection holes 221 is around the wake gas. It can be sprayed in a circular form.

The liquid nitrogen supply flange 223 may be fastened by an opposed flange 213-5 and an assembly bolt and nut 215. The liquid nitrogen manifold 225 may be formed by machining welding the bending pipe.

The liquid nitrogen flowing along the tubing 227 connected to the liquid nitrogen supply device 220 enters the liquid nitrogen manifold 225 and through the plurality of liquid nitrogen injection holes 221, according to one embodiment of the present invention. It may be injected into the wake gas treatment apparatus 200 for the combustion test and injected around the wake gas generated by the gas generator 110. In addition, the gas generator 110 may be connected to the wake gas treatment apparatus 200 for the gas generator combustion test according to an embodiment of the present invention through the flange 223 for supplying the liquid nitrogen of the liquid nitrogen supply device 220. have.

It is formed to include a liquid nitrogen supply device 220 in the connection jig 210, thereby supplying inert liquid nitrogen and water to the interior of the connection jig 210, the inert liquid nitrogen is vaporized, mixed with gaseous nitrogen It is possible to increase the stability of the gas generator combustion test by reducing the possibility of reignition of the wake gas and by reducing the temperature of the liquid nitrogen and water inside the noise reduction device.

In addition, as shown in FIG. 2, the connection jig 210 may be formed to further include a bellows 211. In the wake gas treatment apparatus 200 for a gas generator combustion test according to an embodiment of the present invention, the bellows 211 is positioned at an intermediate portion of the connecting jig 210, but the gas generator according to an embodiment of the present invention is used. It may be located anywhere depending on the structure of the wake gas treatment apparatus 200 for the combustion test.

Since the connection jig 210 is formed to further include the bellows 220, the gas generator 110 and the noise reduction device 120 are easily connected and separated.

FIG. 5 is an enlarged view of a dotted line portion including the inner plate 219 of FIG. 2.

As shown in FIGS. 2 and 5, the connection jig 210 further includes an inner plate 219 installed to surround the bellows 211 by fixing the cantilever in the form of a cantilever inside the connection part with the bellows 211. Can be. The inner plate 219 may be welded and installed inside the connection part of the connection jig 210 and the bellows 211.

The connecting fixture 210 is fixed in the form of a cantilever inside the connection portion with the bellows 220 to further include an inner plate 219 installed to surround the bellows, so that the hot wake gas is directly connected to the bellows 211. It is possible to protect the bellows 211 from being in contact to prevent thermal damage of the bellows 211.

In addition, as shown in FIG. 2, at least one of the gas generator 110, the liquid nitrogen supply device 220, the connection jig 210, the bellows 211, and the connection portion of the noise reduction device 120 is installed. It may include a pair of flanges (213-1, 213-2, 213-3, 213-4, 213-5, 223), a plurality of assembly bolts and nuts (215). Connection of the liquid nitrogen supply device 220 and the connection jig 210, connection of the bellows 211, which may be included in the connection jig 210 and the connection jig 210, connection jig 210 and noise reduction device 120 Can be a connection that is installed by at least one pair of flanges (213-1, 213-2, 213-3, 213-4, 213-5, 223), and a plurality of assembly bolts and nuts (215). have.

For example, the flange 213-2 without the bellows 211 and the flange 213-3 may be disposed between the first duct part 231 and the flange 213-4 with the bellows 211 and the flange ( When the second duct portion 233 is referred to as the second duct portion 233, the flange 213-3 and the flange 213-4 between the first duct portion 231 and the second duct portion 233 are used for assembly. By being fastened by the bolt and nut 215, the connection jig 210 and the bellows 220 may be connected to each other.

In addition, the metal gasket 217 may be used for airtightness with the outside.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and it is recognized that the present invention is easily changed and equivalent by those skilled in the art to which the present invention pertains. Includes all changes and modifications to the scope of the matter.

1 is a view showing a state in which the gas generator and the noise reduction device is disposed in the existing gas generator combustion test.

Figure 2 is a configuration diagram showing a state in which the wake gas treatment apparatus and the gas generator, the noise reduction device for the gas generator combustion test according to an embodiment of the present invention.

FIG. 3 is an enlarged view of a dotted line portion including the liquid nitrogen supply device of FIG. 2.

4 is a cross-sectional view taken along the line IV-IV of FIG. 2.

FIG. 5 is an enlarged view of a dotted line including the inner plate of FIG. 2.

Claims (7)

Connection jig installed between gas generator and noise reduction device to block external gas inflow, A wake gas treatment apparatus for a gas generator combustion test comprising a liquid nitrogen supply device for supplying liquid nitrogen into the connection jig. In claim 1, The liquid nitrogen supply apparatus is a wake gas treatment apparatus for a gas generator combustion test for supplying water with liquid nitrogen into the connection jig. In claim 1, The liquid nitrogen supply apparatus includes a gas generator combustion test including a liquid nitrogen supply flange installed at one end of the connection jig, and a plurality of liquid nitrogen injection holes formed in the liquid nitrogen supply flange to penetrate into the connection jig. Wake-up gas treatment device for 4. The method of claim 3, And the liquid nitrogen supply device comprises a liquid nitrogen manifold installed on the liquid nitrogen supply flange to surround the plurality of liquid nitrogen injection holes. The method according to any one of claims 1 to 4, The connecting jig further comprises a bellows wake gas treatment apparatus for a gas generator combustion test. In claim 5, The connecting jig further comprises an inner plate fixed to the inside of the connection portion with the bellows in the form of a cantilever to surround the bellows from the inside. In claim 5, Gas generator combustion test including the gas generator, the liquid nitrogen supply device, the connecting jig, the bellows, and at least one pair of flanges, a plurality of assembly bolts and nuts installed against the connection of the noise reduction device. Wake gas treatment device.

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