RU2176740C1 - Device for production of neutral gas using turbine - Google Patents

Abstract

FIELD: oil and gas industry. SUBSTANCE: invention can be used at explosion-hazard objects in process of operation and emergency situations for filling-in and for blowing out spaces neutral (inert) gas. Device for production of neutral gas by means of gas turbine has compressor 1 and turbine 2 mounted on shaft 3, free turbine 20 connected with electric generator 22, combustion chamber 4 with mixing members communicating at one side with compressor and fuel feed line 7, and at other side, with turbine and additional combustion chamber 10 communicating with fuel feed line 11 and with neutral gas consumer through gas cooling heat exchange device 12 either directly or through neutral gas drying device 23, system maintaining stoichiometric air- fuel ratio, and control units. Neutral gas production device is furnished additional with gas-liquid mixer 28 connected to system delivering water from external source 29 and to main line 9 delivering combustion products to additional combustion chamber and to after-compressor space through main line 32 with throttling device 33. Shutoff device 30 is installed in line delivering steam-gas to consumer. EFFECT: enlarged technological capabilities of neutral gas production device. 3 cl, 1 dwg

Description

 The invention relates to the oil and gas industry, where there are explosive objects, and can be used in technological operations and emergency situations to fill and purge cavities with neutral (inert) gas.

 The closest in technical essence to the invention is a device for producing neutral gas using a gas turbine, comprising a compressor and a turbine (located on the same shaft), a combustion chamber with mixing elements (communicated on the one hand with the compressor and the fuel supply line, and on the other hand - with a turbine, heat exchanger for cooling the combustion products, with a system for maintaining a stoichiometric ratio of air to fuel consumption, as well as with control units), in which there is an additional An additional combustion chamber is connected on one side to the turbine cavity and, on the other hand, to a consumer of neutral gases, while a heat exchanger is installed between the consumer and the combustion chamber, which is connected to a coolant circulation system, such as water (RF patent N 2138662, class F 02 C 3/20, 1999 - prototype).

 The disadvantage of this device should be attributed to the fact that it does not provide gas dehydration (water vapor is present in the combustion products), and therefore has a restriction on its use in the cold season, and also does not allow one to obtain another working fluid, for example gas-vapor. The latter narrows the scope of its use. In addition, this device does not have an electric power source, which complicates the control of the installation.

 The technical result of the invention is to expand the range of technological capabilities of the device for producing neutral gas. This is achieved due to the fact that the device for producing neutral gas by means of a gas turbine, comprising a compressor and a turbine, the impellers of which are fixed on one shaft, a combustion chamber with mixing devices, connected on one side with the flow part of the compressor and a fuel line equipped with units regulation of the fuel supply, and on the other hand, with the flow part of the turbine and an additional combustion chamber, which is in communication with the fuel system equipped with a stoichiometric device The air-fuel ratio, as well as with the heat exchanger connected to the cooler circulation system and equipped with a neutral gas supply line to the consumer, is additionally equipped with a free turbine, a gas-liquid mixer, and a neutral gas drying device with a desorption gas heat exchanger, while the shaft of the free turbine is connected with a rotor of an electric generator connected to electric consumers, and a gas-liquid mixer is connected by highways to the supply line of combustion products to an additional Yelnia combustion chamber with the water supply means and through a locking device with a consumer vapor gas, and neutral gas supply line to the consumer communicates with a drying device of neutral gas through the three-way valve. Moreover, the desorption gas heat exchanger is installed at the outlet of the free turbine, and the cavity of the gas-liquid mixer is in communication with the compressor outlet cavity via a line with a throttling device.

The drawing shows a schematic diagram of the proposed device, where
1 - compressor;
2 - turbine;
3 and 21 - shafts;
4 and 10 - combustion chambers;
5 - a candle;
6, 7, 8, 9, 11, 13, 14, 17, 18, 26, 27, 31 and 32 - highways;
12 and 16 - heat exchangers;
15 - water pump;
19 - an electric motor;
20 - free turbine;
22 - an electric generator;
23 - a device for drying a neutral gas;
24 - three-way valve;
25 - heat exchanger desorption gas;
28 - gas-liquid mixer;
29 - an external source of water;
30 - locking device;
33 - throttling device.

 Compressor 1 is designed to create air pressure. The turbine 2 is the drive of the impeller of the compressor 1. The impellers of the compressor 1 and the turbine 2 are mounted on the shaft 3. The combustion chamber 4, designed to generate the working fluid of the turbine 2 and the additional combustion chamber 10, is equipped with a candle 5, which provides ignition of the air-fuel mixture in the combustion chamber 4 The combustion chamber 4 is in communication with the compressor 1 by a highway 6 and with a fuel supply control system (not shown) by a highway 7, and also with the turbine inlet manifold 2 by a highway 8 and a highway 9 with an additional combustion chamber 10, otorrhea designed to generate moist neutral gas. An additional combustion chamber 10 is connected by a line 11 with a fuel system equipped with a device for providing a stoichiometric ratio of fuel and air (not shown). The heat exchanger 12 connected to the cooler circulation system is designed to cool the wet neutral gas flow directed to the consumer; it is in communication with a three-way valve 24 via line 13 and line 14 of the cooler circulation system, and also with a pump 15 that provides cooling liquid (water) circulation in heat exchangers 12 and 16.

 The heat exchanger 16 is designed to cool the flow of water flowing out of the heat exchanger 12 with atmospheric air and is in communication with the heat exchanger 12 via line 17, and line 18 with a pump 15, which is driven by an electric motor 19.

 A free turbine 20, mounted on a shaft 21, which is connected to the rotor of the electric generator 22, is the drive of the electric generator 22, designed to provide electricity to all electrical consumers of the device for producing neutral gas.

 The neutral gas drying device 23 with the desorption gas heat exchanger 25 is designed to adsorb water vapor from the obtained wet neutral gas and provides for the alternate regeneration of the adsorbers by blowing them with hot desorption gas, which is heated in the heat exchanger 25, which is located at the outlet of the free turbine 20 and is in communication with a neutral gas dehydration device 23 via a line 26 for supplying cold stripping gas (dried neutral gas) and a main view 27, intended for the supply of hot stripping gas to the regenerated adsorber of the device for drying neutral gas 23.

 The three-way valve 24 is designed to switch the flow of wet neutral gas either directly to the consumer (in summer) or for drying into the neutral gas dehydration device 23 (in winter).

 A gas-liquid mixer 28 is designed to mix the flow of water from an external source of water 29 and the flow of combustion products from the line 31 connecting it to the combustion chamber 4 to produce gas, which is supplied to the consumer through the shut-off device 30.

 The gas-liquid mixer is in communication with the output manifold of the compressor 1 by a line 32 with a throttling device 33.

 The device operates as follows.

 The launch system (not shown) performs the spinning of the impeller of the turbine 2, and with it the impeller of compressor 1. At the same time, atmospheric air enters the compressor 1 and from it, through line 6 enters the combustion chamber 4, and through highway 7 into the chamber Combustion 4 delivers fuel, the flow rate of which (to ensure a given rotational speed of the impeller of the turbine 2) is controlled by a fuel supply control system (not shown). The ignition of the resulting air-fuel mixture is provided by a candle 5, placed in the cavity of the combustion chamber 4, where the combustion of the air-fuel mixture and cooling of the combustion products to a predetermined temperature. The resulting combustion products contain an excess of oxygen. From the combustion chamber 4 along the highway 8, part of the combustion products is fed to the turbine 2 and then to the free turbine 20, and part of the combustion products along the highway 9 is fed to the additional combustion chamber 10, where fuel is supplied via the highway 11. In the additional combustion chamber 10, the combustion products are burned to a predetermined oxygen content (less than 1%). Obtaining a predetermined composition of the combustion products in the additional combustion chamber 10 is achieved by changing the fuel consumption using a device to provide a stoichiometric ratio of fuel and air.

 The ignition of the gas mixture is similar to that described previously. The resulting combustion products are wet neutral gas, which, passing through a water-cooled heat exchanger 12, reach a predetermined temperature and can be transported through a three-way valve 24 either directly to the consumer (in summer) or for subsequent drying to a neutral gas dehydrator 23 ( in winter). The neutral gas drying device 23 includes two adsorbers operating alternately: one in the drying mode, the other in the regeneration mode. Regeneration is carried out by purging the adsorber with hot stripping gas under reduced pressure. As a stripping gas, 20-25% of dried neutral gas is used, which is heated in a heat exchanger of the stripping gas 25, blown by a stream of hot gas flowing from the exhaust pipe of a free turbine 20.

 To generate gas, the locking device 30 is opened and water is supplied from the external source to the gas-liquid mixer 28, where it is mixed with the combustion products and evaporates due to their high temperature. The gas temperature is regulated by a change in water flow. When the external water source is turned off, the consumer receives combustion products, the temperature of which is regulated by changing the air flow coming from the compressor 1 along line 32 with a throttling device 33.

 Thus, the implementation of the proposed device will allow you to create a technological complex of equipment with a high level of operational parameters and a wide scope.

Claims (3)

 1. A device for producing neutral gas using a gas turbine, comprising a compressor and a turbine, the impellers of which are mounted on one shaft, a combustion chamber with mixing devices, connected on one side with the compressor flow path and a fuel line equipped with fuel supply control units, and on the other hand, with the flow part of the turbine and an additional combustion chamber, which is in communication with the fuel system, equipped with a device for ensuring the stoichiometric ratio of air and fuel willow, as well as with a heat exchanger connected to the cooler circulation system and equipped with a neutral gas supply line to the consumer, characterized in that it is additionally equipped with a free turbine, a gas-liquid mixer and a neutral gas drying device with a desorption gas heat exchanger, while the shaft of the free turbine connected to the rotor of an electric generator connected to electric consumers, and a gas-liquid mixer is connected by highways to the supply line of combustion products to in the combustion chamber, with a water supply device and, through a shut-off device, with a steam-gas consumer, and the neutral gas supply line to the consumer is in communication with the neutral gas drying device through a three-way valve.  2. A device for producing neutral gas using a gas turbine according to claim 1, characterized in that therein a heat exchanger of desorption gas is located at the outlet of a free turbine.  3. The device for producing neutral gas using a gas turbine according to claim 1, characterized in that in it the cavity of the gas-liquid mixer is connected by a line equipped with a throttling device to the outlet cavity of the compressor.