RU2388920C1 - Gas-pumping station on offshore platform - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: gas-pumping station on offshore platform comprises container separated by partition into two tight compartments. In one compartment there is at least one gas-turbine drive comprising inlet device, compressor, combustion chamber, turbine, free turbine and exhaust device. Free turbine by load shaft is connected to electric generator. In the other compartment there are gas injectors installed with drives. Electric generator is connected to free turbine via magnetic coupling and is connected by electric links via switchboard to drives of gas injectors and to accumulator batteries. Inside container there are supplying and exhausting gas lines introduced as vertical upward, in which detachable joints are arranged at the ends. Compounds may be connected to supplying and exhausting nozzles of gas manifold, are arranged perpendicular to it and are installed at both sides of bypass pipeline having two stop valves at its ends. Stop valves are arranged with remote drives, and between the injectors and their drives there are magnetic couplings installed.

EFFECT: improving station operation reliability.

4 cl, 5 dwg

Description

The invention relates to the transportation of gaseous hydrocarbon fuel through long-distance pipelines laid along the seabed.

Known nuclear subsea pumping station according to the patent of the Russian Federation for invention No. 2191321, which contains a sealed steel casing, separated by solid bulkheads into the reactor compartment, two residential and battery compartments, and two end - turbine compartments.

In the reactor compartment there is one autonomous source of energy that feeds all consumers of a nuclear subsea pumping station - a water-to-water nuclear reactor. The reactor is connected by steam lines to gas turbochargers. In neighboring, symmetrically located relative to the reactor compartments are located living cabins, batteries, control panels and all other general ship equipment, mechanisms and devices. Steam turbine units are placed in the end tight compartments, which are connected through a special rotating shaft to the nose end of the compressor-supercharger rotor, which is located outside the durable housing and is attached to the end spherical bulkhead. The role of the stern gland in this case is played by the nasal oil seal of the compressor-supercharger and its nasal bearing. Thus, the entire tract of the natural gas pumped by an atomic subsea gas pumping station is located outside a durable lightweight housing, with the receiving and pressure branches of gas pipelines from the compressor-supercharger passing through the double-sided space.

The procedure for visiting this station underwater is as follows. An access hatch opens, through which service personnel enter the station's living compartment. Then, gas analysis of the air in the end compartment is already carried out from the living compartment, and if necessary, it is replaced, the access hatch opens on the bulkhead and maintenance personnel begin to inspect the mechanisms, seal the compressor-supercharger and replace consumables. After completion of work, maintenance personnel leave the station before the next visit.

The disadvantages of this station are the very low reliability due to the presence of only one nuclear reactor, the location of the compressor-compressor outside the station, which leads to the need for a rotating shaft in a robust housing and its possible depressurization, as well as the inability to service the compressor-compressor at great depths, for example, more 50 m

Known nuclear subsea pumping station according to the patent of the Russian Federation for the invention No. 2154231. This atomic gas pumping station, containing a light and durable housing, separated by solid bulkheads into sealed compartments, on average of which a water-water atomic reactor is installed, connected by steam pipelines to gas turbochargers, a drive turbine of which is connected by a rotating shaft to a compressor-supercharger, receiving and pressure branches the gas pipelines of which pass through the inter-side space and are connected to the baffles of the docking nodes of the station with the main gas pipeline located in its keel part .

The disadvantage is the high cost of equipment and the cost of electricity generated using a nuclear reactor. The use of a conventional gas turbine drive operating on the selection of part of the pumped gas under water is not possible, because it is technically impossible to take air for a gas turbine drive and exhaust emissions into the atmosphere.

Known underwater drilling rig according to the patent of the Russian Federation No. 2081289, prototype. This installation contains a platform and a gas pumping station on it.

The disadvantage is the low reliability of the station, due to several reasons:

1. The lack of duplicate systems.

2. The presence of one gas supercharger.

3. Location of the gas supercharger outside the station.

4. The lack of an external power source for electricity.

5. The catastrophic consequences of a breakdown of the gas supercharger, leading to the cessation of gas supply to the gas pipeline.

6. The presence of valves outside the station and the lack of remote control. The objectives of the invention are to increase the reliability of the station and ensure safety and ease of maintenance.

The claimed technical results are achieved in a gas pumping station on an offshore platform containing a container divided by a partition into two sealed compartments, one of which has at least one gas turbine drive containing an inlet device, a compressor, a combustion chamber, a turbine, a free turbine and an exhaust a device, wherein a free turbine is connected by a load shaft to an electric generator, and in another, gas blowers with drives, characterized in that the electric generator is connected to a free turbine through a magnetic coupling and electrical connections through a switch is connected to the drives of gas superchargers and to the batteries, inlet and outlet gas pipelines are introduced vertically upward into the container, at the ends of which are detachable connections that can be connected to the inlet and outlet pipes of the gas main, made perpendicularly to it and installed on both sides of the bypass piping having two shut-off valves, at its ends, while the shut-off valves are They are filled with remote drives, and magnetic couplings are installed between the blowers and their drives. The platform can be equipped with a heat recovery system with a water tank, a pump with a drive and a regenerative heat exchanger installed in the output device. A gas extraction pipe may be connected to the combustion chamber, in which a booster compressor with a drive and a flow regulator are installed. The gas pumping station may contain independent oil systems of the drive and supercharger having oil coolers connected to the water intake and discharge pipes.

The invention is illustrated in the drawings, where:

figure 1 shows a diagram of an offshore platform with a station,

figure 2 shows a top view of the station,

figure 3 shows a side view,

figure 4 shows the pneumohydraulic and electrical circuit,

figure 5 shows the design of a gas supercharger with a magnetic coupling.

The proposed technical solution has novelty, inventive step and industrial applicability. The novelty is confirmed by patent research, and the inventive step is achieved by the achievement of a new technical result when using new technical solutions.

A gas pumping station on an offshore platform (FIGS. 1 ... 5) is designed to increase the pressure of the gas supplied through the inlet line 1 and transfer it to the outlet line 2, between which a bypass line 3 is installed, with shut-off valves 4 and 5. Gas inlet and outlet highways 1 and 2 are installed horizontally on supports 6 on the seabed. The station is installed in the container 7 on the offshore platform 8, which, in turn, contains the base of the platform 9, mounted on 4 supports 10, which are supported by the ground 11. The station is installed in the container 7, divided by a partition 12 into airtight compartments: engine compartment 13 and the gas pumping compartment 14. The output device 15 is partially installed in the container 7.

At least one gas turbine drive 16 and a free turbine 17 connected by a load shaft 18 to an electric generator 19, which is installed in the compartment 14, are installed in compartment 13. A gas pumping station equipped with one gas turbine drive and one electric supercharger is described below. The gas-turbine drive 16 contains an air intake 20, a compressor 21, a combustion chamber 22, a turbine 23, a free turbine 17, which is connected to an electric generator 19 through a load shaft 18 through a magnetic coupling 24. Shutoff valves 25 and 26 are installed under water on both sides of the bypass pipe 3. with remote drives 27, to which the inlet and outlet pipelines 28 and 29 are respectively connected. At the upper end, the inlet gas line 34 has gas blowers 30 (at least two, hereinafter shown as an example a system with two Tutelo), to which and which set the shutoff valves 31 and 32 respectively. Gas superchargers 30 are equipped with actuators 33 (electric actuators in explosion-proof design). A gas extraction pipe 34 is connected to the exhaust gas line 29, comprising a booster compressor 35 with a drive 36, a flow regulator 37, and a valve 38. This pipe is connected to the combustion chamber 22. A regenerative heat exchanger 39 is installed inside the outlet device 15, to which the pipe 41 is suitable from the tank 40 containing a water pump 42 with a drive 43. The pipe 41 from the regenerative heat exchanger 39 is also docked to the tank 40 to return the heated water. Heated water is used for heating and technological needs.

The gas pumping station comprises an air intake system 44 with a silencer 45 and an air cleaner 46, as well as a gas exhaust duct 47 with a silencer 48 and a weather cover 49. The height of the air intake system 44 and the gas exhaust duct 47 are significantly different. The gas exhaust tract is placed higher by a distance H (Fig. 3).

In addition, the gas pumping unit includes a control unit 50, which is connected to the switch 51 by means of electrical connections 52, by which the switch 51 is also connected to all drives, including 33, 43, etc. (Fig. 1 and Fig. 4). The gas pumping station contains oil coolers 54 to which the water supply pipe 55 to the water pump 56 and the water discharge pipe 57 are connected. The oil coolers 44 are connected through the oil line to a pipe 58 containing a pump 59 and a pipe 60 with a gas turbine drive 16 and gas superchargers 30. The control unit 50, the switch 51 and the batteries 53 are installed in the technical room 61. On the basis of the platform 9, a living room 62 and a helipad 63 are installed (FIG. 2).

The gas supercharger 30 (Fig. 5) is a centrifugal compressor and contains an impeller 66 installed in the housing 64 on the shaft 65, having a hub 67. The input housing 68 is connected to the housing 64, and the output housing 69 is connected to the output. The gas compressor has a front seal 70 and a rear seal 71 separating the discharge cavity 72. In the hub 67 of the impeller 66, holes 73 are made connecting the discharge cavity 72 with the cavity of the impeller 66. The shaft 65 is mounted on the bearing 74 in the housing 75, the cavity 76 is made in front of it and the cavity 77 is behind it .Magnetic the clutch 24 is mounted on the shaft 65 and contains a leading coupling half 78 and a driven coupling half 79 made in the form of cylinders with permanent magnets 80 mounted on their ends, and a magnetically permeable partition 81 between them. In addition, the station is equipped with fire extinguishing systems, lighting, a security system (access and video control system) and a lighting system. These systems are not shown in FIGS. 1 ... 5.

During operation, the gas-turbine drive 16 is started by opening the valve 38 and supplying gas to the combustion chamber 22. The electric generator 19 supplies electric energy to all drives, including the drives 33, which untwist the gas blowers 30, the gas increases its pressure and supplies gas to the exhaust line 2. In this case, valves 4 and 5 are closed, and valves 25, 26, 31 and 32 are open.

Since at least two gas superchargers 30 are used, one of them can work, and the other can be in reserve and start when the working supercharger breaks down or is turned off for preventive maintenance. The use of magnetic couplings allows in the event of a serious breakdown of the gas turbine drive or one of the gas superchargers to eliminate the catastrophe associated with the complete destruction of the station and a fire at it. The use of remotely controlled shut-off valves ensures safe operation and ease of operation. The use of a bypass pipeline allows in case of a serious accident at a gas pumping station to exclude it from work and let the pumped gas directly without additional increase in its pressure in the pipeline. This can lead to a decrease in its flow rate or to the need to force other stations installed in the same gas pipeline, but will not lead to the cessation of gas transfer to the consumer.

The application of the proposed invention has significantly increased the reliability of the gas pumping station due to:

1. Duplication of gas superchargers, i.e. application of two or more gas superchargers. Duplication of gas turbine drives and electric generators is possible. (In figure 1 ... 5 such an option is not shown.)

2. The use of electric drives for shut-off valves in explosion-proof design, especially located in the discharge compartment.

3. Battery applications.

4. Remote control shut-off valves.

5. Applications of the control unit and switch.

6. Placement of the gas turbine drive and electric generator and gas superchargers inside the container in different compartments separated from each other.

7. Separation of the container by a partition into two airtight compartments independent of each other.

Claims (4)

1. A gas pumping station on an offshore platform containing a container divided by a partition into two airtight compartments, one of which has at least one gas turbine drive comprising an inlet device, a compressor, a combustion chamber, a turbine, a free turbine and an exhaust device, this free turbine is connected by a load shaft to an electric generator, and in the other - gas blowers with drives, characterized in that the electric generator is connected to a free turbine through a magnetic coupling and by direct connections through the switch is connected to the drives of gas superchargers and to the batteries, inlet and outlet pipelines are introduced vertically upward into the container, at the ends of which are detachable connections that can be connected to the inlet and outlet pipes of the gas main, made perpendicular to it and installed on both side of the bypass pipeline having two shut-off valves, at its ends, while shut-off valves are made with remote drives, and between Tutelo and their actuators mounted magnetic coupling. 2. The gas pumping station on the offshore platform according to claim 1, characterized in that it is equipped with a heat recovery system with a water tank, a pump with a drive and a regenerative heat exchanger installed in the output device. 3. A gas pumping station on an offshore platform according to claim 1, characterized in that a gas extraction pipe is connected to the combustion chamber, in which a booster compressor with a drive and a flow regulator are installed. 4. A gas pumping station on an offshore platform according to claim 1, characterized in that it contains independent oil systems of a drive and a supercharger having oil coolers connected to water intake and discharge pipes.

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