RU2320898C1 - Compressor station - Google Patents

Abstract

FIELD: invention is assigned on development of new construction of compressor station with expansion of the field of its usage due to assigning to it multifunctional properties.

SUBSTANCE: the indicated technical result is achieved due to the fact that compressor station including compressor with pipeline for discharging compressed air and combustion engine with exhaust pipe and damper has additionally vortex tube connected with pipeline for discharging compressed air and having pipelines for discharging hot and cool flow installed between exhaust tube and damper and having divided with heat exchanging surface gas and water tract with heat exchanger, water pump and intermediate capacity for water, provided with pipelines for feeding compressed air from compressor and for supplying and discharging water. At that pipeline for discharging water is connected with pipeline for discharging hot air flow of vortex tube and is provided with branching line, suction line of water pump is connected with external source of water, forcing line of water pump is connected with water tract of heat exchanger and directly with pipeline for supply water to intermediate capacity with which in its turn is connected water tract of heat exchanger provided with additional pipeline for discharging steam.

EFFECT: develops new construction of compressor station.

4 cl, 1 dwg

Description

The present invention relates to general engineering, in particular to devices for producing air with high pressure, and can be used in the extraction and transportation of oil and gas, in construction and many other industries.

The compressor station includes the compressor itself and a power device that drives the compressor. The direct purpose of using a compressor station is to supply a specific installation or production site with compressed gas, capable of, for example, actuating a pneumatic tool (jackhammer, sand blasting unit, etc.) or creating a high-speed air flow for blowing surfaces that need it.

Known self-propelled drilling rig, a part of which is a compressor station (see patent RU No. 2276245 "Method of drilling and self-propelled drilling rig for its implementation", published on 10.05.2006, Bull. No. 13). In this invention, the compressor station produces compressed air used to clean the well of drill cuttings. The disadvantage of the actual compressor station is the narrow scope of its use.

Closest to the proposed invention is a mobile installation for the preparation and injection of a gas-liquid mixture or gas into the well (see application RU No. 2004137071 A, "Mobile installation for the preparation and injection of a gas-liquid mixture or gas into the well", IPC F04B 19/06, date filing 2004.12.17.). In this application, the actual compressor station also contains a compressor and an internal combustion engine driving it. The installation is used to prepare and inject a gas-liquid mixture or gas into a well. At the same time, the drawback, as in the analogue, is the narrow scope of the compressor station.

In fact, both in the analogue and in the prototype the compressor station is used for its intended purpose, namely, it is a source of compressed air.

The problem solved by the invention is to create a new design of the compressor station.

Achievable technical result consists in expanding the field of use of the compressor station and, accordingly, in giving the compressor station multifunctionality.

To achieve a technical result, a compressor station including a compressor with a pipe for discharging compressed air and an internal combustion engine with an exhaust pipe and a muffler is additionally equipped with a vortex pipe connected to a pipe for discharging compressed air, which has pipelines for discharging hot and cold air flow installed between the exhaust pipe and silencer and having a gas and water path separated by a heat exchange surface, a heat exchanger, a water pump and an intermediate tank a bone for water, equipped with pipelines for supplying compressed air from the compressor and supplying and discharging water, moreover, the pipeline for water output is connected to the pipeline for outputting the hot air stream of the vortex tube and is equipped with a discharge line, the suction line of the water pump is connected to an external water source, the discharge line the water pump is connected to the water path of the heat exchanger and directly to the pipeline for supplying water to the intermediate tank, which in turn is connected to the water path of the heat exchanger, with equipped with an additional steam pipe.

The exhaust pipe of the internal combustion engine is equipped with a control damper installed with the possibility of alternately supplying exhaust gases directly to the muffler or to the gas path of the heat exchanger. The pipeline for the withdrawal of hot water at the junction with the pipeline for the withdrawal of hot air flow from the vortex tube is equipped with a spray.

An additional steam exhaust pipe is connected to a pipe for discharging hot air flow from the vortex tube.

The essence of the present invention is as follows.

If as an example we consider the use of compressor stations in the drilling and operation of oil wells, obtaining only compressed air cannot satisfy various production needs, while improving the design of the compressor station can solve many production issues. The process of cleaning pipe surfaces sometimes requires compressed air with a high temperature. Often for the same purpose it is necessary to use hot water in a sprayed state or steam. Hot air is also necessary for solving ordinary household tasks: drying wet clothes, quick heating of domestic premises, etc. These tasks and a number of others can be solved by expanding the capabilities of conventional compressor stations, which, as a rule, include a compressor and an internal combustion engine that drives it.

Equipping the compressor station with a vortex tube allows you to get compressed hot air and cold air flow. A heat exchanger with a counterflow of exhaust gases of an internal combustion engine and water from an external source allows to obtain hot water and, if necessary, steam with a certain pressure and temperature. An intermediate water tank, under pressurization of compressed air from the compressor, allows you to get a torch sprayed cold or hot water. Sprayed water can be supplied for cleaning pipes of drilling rigs and wells in operation as such or in a stream of hot air from a vortex tube or steam.

Thus, due to equipping the compressor station with additional devices with appropriate connections between them, a multifunctional unit with a wide range of applications can be realized, simple in design and not presenting the slightest difficulties in operation.

The design of the compressor station of the present invention is shown in the drawing.

The compressor station includes a compressor 1 and an internal combustion engine driving it 2. A pipe 3 for discharging compressed air from the compressor 1 is connected to a vortex pipe 4 having a pipe 5 for outputting a hot air stream and a pipe 6 for outputting a cold air stream. The internal combustion engine 2 has an exhaust pipe 7 with a silencer 8. Between the exhaust pipe 7 and the silencer 8 a heat exchanger 9 is installed, having a gas path 10 and a water path 11. The ducts 10 and 11 are separated by a heat exchange surface. The exhaust pipe 7 is equipped with a control damper 12, which is configured to alternately supply exhaust gases directly to the muffler 8 or to the gas path 10. The compressor station is equipped with a water pump 13. The suction line 14 of the water pump 13 is connected to an external water source. The discharge line 15 of the water pump 13 is connected to the water path 11 of the heat exchanger 9. The compressor station includes an intermediate water tank 16 having a pipe 17 for supplying water, a pipe 18 for outputting water and a pipe 19 for supplying compressed air. The discharge line 15 of the water pump 13 is simultaneously connected to the pipe 17 for supplying water to the intermediate tank 16. The water path 11 of the heat exchanger 9 is also connected to the pipe 17 and is provided with an additional pipe 20 for venting steam. The pipe 18 for outputting water from the intermediate tank 16 at the junction with the pipe 5 for outputting hot air from the vortex tube 4 has a water atomizer 21. An additional pipe 20 for venting steam from the water path 11 of the heat exchanger 9 is also connected to the pipe 5 for outputting hot air flow from the vortex tube 4. Pipeline 3 for the discharge of compressed air from the compressor 1 is connected to a pipe 19 for supplying compressed air to the intermediate tank 16. The pipe 18 for withdrawal of water from the intermediate tank 1 6 is equipped with a discharge line 22. Naturally, the pipelines connecting the apparatuses of the described circuit are equipped with shut-off bodies.

The compressor station of the present invention operates as follows.

The internal combustion engine 2 drives the compressor 1.

The exhaust gases of the internal combustion engine 2 using the control flap 12 can be directed from the exhaust pipe 7 either directly to the muffler 8 or to the gas path 10 of the heat exchanger 9. In the first case, the heat exchanger 9 is excluded from operation, and hot water or steam during operation of the compressor station is not are being produced. When the compressor 1 is operating, compressed air is generated, which, through a pipe 3 for discharging compressed air from the compressor 1, enters the vortex tube 4 or can be removed from the compressor station for further use for various types of pneumatic tools.

Two air streams are formed in the vortex tube 4: the hot air stream discharged through the pipeline 5 and the cold air stream discharged through the pipe 6. The hot air stream can be further used as such for heating domestic premises, for heating workplaces, blowing cleaned surfaces etc. The flow of cold air can be released into the atmosphere or applied, for example, in refrigeration chambers.

In the case when the exhaust gases of the internal combustion engine 2 are sent from the exhaust pipe 7 to the gas path 10 of the heat exchanger 9 using the control damper 12, at the same time, water from an external source is sent to the water path 11 of the same heat exchanger 9, for which the pump 13 is turned on The water 13 enters the pump 13 through the suction line 14. Next, the water through the discharge line 15 is supplied to the water path 11. The gas 10 and water 11 paths are separated from each other by a heat exchange surface. By exchanging heat between water and exhaust gases in the heat exchanger 9, hot water and, if necessary, water vapor can be obtained. Hot water is supplied to the intermediate tank 16 through a water supply pipe 17, which is connected to the water path 11. Simply cold water can also be supplied to the intermediate tank 16 from the discharge line 15 of the pump 13. It is advisable to periodically fill the intermediate tank 16 with cold or hot water . Then, after filling the intermediate tank 16 to an appropriate level, the tank 16 is pressurized due to the connection of the pipeline 3 for the discharge of compressed air from the compressor 2 with the pipeline 19 for the supply of compressed air to the vessel 16. Thanks to the discharge line 22, which is equipped with a pipe 18 for removing water from the intermediate containers 16, cold or hot water with a certain pressure can be used as such. When connecting the pipe 18 for water outlet with the pipe 5 for removing the hot air stream from the vortex tube 4 and when supplying the pipe 18 with the connection point to the pipe 5 with the atomizer 21, a pressurized gas stream containing finely atomized water can be used in production.

According to the description, the water path 11 of the heat exchanger 9 is also provided with an additional pipe 20 for venting steam. An additional pipe 20 for venting steam from the water path 11 of the heat exchanger 9 is also connected to the pipe 5 for outputting hot air flow from the vortex tube. Thus, the steam obtained during the operation of the compressor station can be used in production as such or in a mixture with hot air flow.

The compressor station in a new design acquires the property of multifunctionality with the expansion of the scope. Compressed air, hot air stream, cold air stream, cold and hot water under pressure, a mixture of atomized hot or cold water and a hot gas stream, water vapor and a mixture of water vapor with a hot gas stream - all of the above can be applied in a variety of production purposes and gives the compressor station of the proposed design a universal character.

It is advisable to give some physical parameters of the compressor station flows of the proposed design (when using a standard compressor station of the type KV-20/16, having an internal combustion engine YaM3-238D, with a power of 243 kW):

Compressed air after compressor - V ₁ = 20 m ³ / min T ₁ = 80 ° C, p ₁ = 16 ata; Hot air after the vortex tube - V ₂ = 8 m ³ / min t ₂ = 220 ° C, p ₂ = 3 ata; Cold air after a vortex tube - V ₃ = 12 m ³ / min t ₃ = 0 ° C, p ₃ = ~ 1.5 ata; Steam G _p = 600 kg / h t _p = 130 ° C, p _p = ~ 3 ata; Hot water - G _w = 2000 kg / h t _w = 60 ° C p _w = ~ 3 at.

Claims (4)

1. Compressor station, comprising a compressor with a pipe for the discharge of compressed air and an internal combustion engine with an exhaust pipe and a silencer, characterized in that the compressor station is additionally equipped with a vortex pipe connected to the pipe for the output of compressed air having pipelines for the output of hot and cold air flow a heat exchanger installed between the exhaust pipe and the muffler and having a gas and water path separated by a heat exchange surface, a water pump and an intermediate a water tank equipped with pipelines for supplying compressed air from the compressor and supplying and discharging water, moreover, the pipeline for water outlet is connected to the pipeline for outputting the hot air stream of the vortex tube and provided with a discharge line, the suction line of the water pump is connected to an external water source, forcing the water pump line is connected to the water path of the heat exchanger and directly to the pipeline for supplying water to the intermediate tank, which in turn is connected to the water path of the heat exchanger nickname, equipped with an additional pipe for the removal of steam. 2. The compressor station according to claim 1, characterized in that the exhaust pipe of the internal combustion engine is equipped with a control damper installed with the possibility of alternately supplying exhaust gases directly to the muffler or to the gas path of the heat exchanger. 3. The compressor station according to claim 1, characterized in that the pipeline for discharging hot water at the junction with the pipeline for discharging hot air flow from the vortex tube is equipped with a spray. 4. The compressor station according to claim 1, characterized in that the additional pipeline for venting steam is connected to the pipeline for outputting the hot air stream from the vortex tube.