RU121013U1 - DOUBLE STAGE PISTON COMPRESSOR DOUBLE ROW WITH RECTANGULAR LOCATION OF CYLINDERS - Google Patents

Abstract

 1. A two-stage double-row piston compressor with a rectangular arrangement of cylinders containing a base, cylinder group, piston group, operating valves and an interstage heat exchanger, characterized in that the compressor gas outlet is connected to the inlet of the end heat exchanger. ! 2. The compressor according to claim 1, characterized in that it contains a power drive. ! 3. The compressor according to claim 1, characterized in that a suction filter is placed at its gas inlet. ! 4. The compressor according to claim 1, characterized in that it contains a gas pipeline system and valves of the gas pipeline system. ! 5. The compressor according to claim 1, characterized in that it contains a water supply system and fittings of the water supply system. ! 6. The compressor according to claim 1, characterized in that it contains an automation system. ! 7. The compressor according to claim 1, characterized in that each of the heat exchangers contains at least three refrigerators connected in parallel, and a safety valve is installed at the outlet of each refrigerator. ! 8. The compressor according to claim 7, characterized in that the refrigerators are vertical. ! 9. The compressor according to claim 7, characterized in that the refrigerators are shell-and-tube, wherein each refrigerator is divided by a partition into a cavity of hot air and a cavity of cold air, and a purge valve is made in each cavity. ! 10. The compressor according to claim 1, characterized in that two parallel-connected check valves are installed at the output of the end heat exchanger. ! 11. The compressor of claim 10, characterized in that between the outlet of the end heat exchanger and the inlet of the check valves there is a gas discharge pipe, while a solenoid valve is placed on the aforementioned pipe. ! 12. Team

Description

The field of technology.

The inventive utility model relates to the field of engineering, namely to compressor engineering. The inventive reciprocating two-stage piston compressor with a rectangular arrangement of cylinders is designed to compress gas, mainly air, used as an energy carrier in various industries.

The prior art.

Among piston two-stage double-row compressors with a rectangular arrangement of cylinders, for example, the VP-50/8 compressor is known, which contains a base, a cylinder group, a piston group, working valves and an interstage heat exchanger (I. G. Bleicher, V. P. Liseev. Compressor stations Publishing house "Mashgiz", 1959, pp. 23-24, [1]).

The disadvantage of the above analogue [1] is the high temperature and high dew point of the gas coming from the piston compressor to the compressed gas network. A high dew point indicates a large amount of water vapor in the compressed gas. This leads to condensation of moisture in the pipelines of the network, reduces their throughput and, in some cases, causes water hammer.

Disclosure of a utility model.

The technical result provided by the claimed utility model is to reduce the temperature of the gas outlet stream and reduce the level of moisture contained therein.

The essence of the utility model is that a two-stage reciprocating piston compressor with a rectangular arrangement of cylinders contains a base, a cylinder group, a piston group, operating valves and an interstage heat exchanger. The gas outlet of the compressor is connected to the input of the end heat exchanger.

The compressor preferably comprises a power drive.

A suction filter is preferably arranged at the gas inlet of the compressor.

The compressor desirably comprises a gas pipeline system and fittings of a gas pipeline system.

The compressor desirably comprises a plumbing system and fittings of a plumbing system.

The compressor preferably comprises an automation system.

Each of the compressor heat exchangers preferably comprises at least three refrigerators connected in parallel, and a safety valve is installed at the outlet of each refrigerator.

Refrigerators can be made upright.

The refrigerators are preferably made shell-and-tube, with each refrigerator divided by a partition into a cavity of hot air and a cavity of cold air, and a purge valve is made in each cavity.

At the outlet of the end heat exchanger, two parallel check valves are preferably installed.

Between the outlet of the end heat exchanger and the inlet of the check valves, a gas discharge pipe can be placed, and a solenoid valve is placed on the aforementioned pipe.

The cylinders are preferably double acting.

A brief description of the drawings.

The figure 1 shows a diagram of the flow of gas mass in the compressor; figure 2 - diagram of the compressor.

Implementation of a utility model.

A two-stage piston compressor with a rectangular arrangement of cylinders (6, 7) (Figs. 1, 2) contains a power drive (1), a suction filter (2), a base, a cylinder-piston group of the first stage, cylinder-piston group of the second stage, workers valves (10), an interstage heat exchanger (11), an end heat exchanger (12), a gas pipeline system, a water supply system, valves of the aforementioned gas pipeline and water supply systems, and an automation system.

The power drive (1) is designed to drive the compressor.

The suction filter (2) is located at the compressor gas inlet and is intended for preliminary gas purification from mechanical impurities.

The compressor base contains a bed (not shown), a crankshaft (3), connecting rods (4) and crossheads (5).

The cylinder-piston group of the first stage is located in a vertical row and contains the cylinder of the first stage (6) and the piston of the first stage (8). The cylinder-piston group of the second stage is located in a horizontal row and contains a cylinder of the second stage (7) and a piston of the second stage (9). The above cylinders (6, 7) are preferably double acting and their axes are located at right angles to each other. This arrangement of cylinders increases the compactness of the compressor.

The service valves (10) are designed to pass gas into the working cavities of the cylinders (6, 7) in one direction for certain periods of time and not to let it pass in the opposite direction during the rest of the working cycle.

An interstage heat exchanger (11) is designed to cool the gas between the first and second stages of compressor compression. The input of the interstage refrigerator (11) is connected to the output of the first compression stage, and the output is connected to the input of the second compression stage.

The gas outlet of the compressor is connected to the input of the end heat exchanger (12).

The end heat exchanger (12) is designed to cool the hot compressed air in the last stage of the compressor, and to release moisture from it, which otherwise condenses in the pipelines of the compressed gas network. Moisture condensation in pipelines occurs due to the fact that near the cold walls of the pipes a thin layer of gas with a wall temperature is formed. It is in this layer that dew falls. At the outlet of the end heat exchanger (12) two parallel check valves (13) are installed. At the same time, between the outlet of the end heat exchanger (12) and the inlet of the check valves (13) there is a gas discharge pipe (14), on which a solenoid valve (15) is placed.

Each of the above heat exchangers (11) and (12) contains at least three refrigerators (16) connected in parallel. Refrigerators (16) are preferably vertical shell-and-tube, and each refrigerator (16) is divided by a partition into a cavity of hot air and a cavity of cold air. At the same time, a purge valve is made in each cavity. A safety valve (17) is installed at the outlet of each refrigerator (16).

The automation system provides control, management and emergency protection of the compressor installation.

Examples of specific performance.

Example 1. In order to ensure compressor performance equal to 0.79 ÷ 0.8303403 m ³ / s (47.5 ÷ 52.5 m ³ / min) when the compressor is operating with an initial pressure in the range 0.84 ÷ 1.07 MPa and the final pressure is 0.78 MPa, the main dimensions of the compressor are as follows: the diameter of the cylinder of the first stage is 0.602 m (602 mm), the diameter of the cylinder of the second stage is 0.352 m (352 mm), the piston stroke is 0.3 m (300 mm), the rod diameter is 0.06 m (60 mm), the crankshaft rotational speed is 6.25 s ^-1 (375 rpm). In this case, the discharge pressure of the first stage is 0.21 ÷ 0.25 MPa. In addition, the mass of the compressor without a power drive (1) and heat exchangers (11, 12) is preferably 7900 kg, and the overall dimensions without a power drive are: length not more than 3.1 m, width not more than 1.6 m, height equal 3.01 m.

Work description.

Gas, mainly air, enters through the suction filter (2) into the first stage of the compressor. From the first stage of the compressor, gas with a higher pressure and temperature enters the interstage heat exchanger (11), where the gas is cooled. From the output of the interstage heat exchanger (11), the cooled gas enters the second compression stage, where it is compressed to a final pressure, and then enters the end heat exchanger (12). In the end heat exchanger (12), the compressed heated gas is cooled and moisture is condensed in it. From the end heat exchanger (12), the compressed cooled gas enters the compressed gas network.

Thus, from the foregoing, it follows that in the inventive compressor of a two-stage piston two-row with a rectangular arrangement of cylinders, the claimed technical result: "lowering the temperature of the gas outlet stream and lowering the level of moisture contained in it" is achieved due to the fact that the piston compressor is a two-stage two-row with a rectangular arrangement of cylinders contains a base, a cylinder group, a piston group, service valves and an interstage heat exchanger. The gas outlet of the compressor is connected to the input of the end heat exchanger.

Industrial applicability.

The author of the utility model made a prototype of the inventive two-stage reciprocating piston compressor with a rectangular arrangement of cylinders, the tests of which confirmed the achievement of the technical result.

The inventive reciprocating two-stage piston compressor with a rectangular arrangement of cylinders is implemented using industrially produced devices and materials, can be assembled at any machine-building enterprise and will be widely used in the fields of production, processing, transportation and marketing of oil and gas products.

INFORMATION SOURCES.

1. I.G. Bleicher, V.P. Liseev. Compressor stations. Mashgiz Publishing House, 1959

Claims (12)

1. A two-stage double-row piston compressor with a rectangular arrangement of cylinders containing a base, cylinder group, piston group, operating valves and an interstage heat exchanger, characterized in that the compressor gas outlet is connected to the inlet of the end heat exchanger. 2. The compressor according to claim 1, characterized in that it contains a power drive. 3. The compressor according to claim 1, characterized in that a suction filter is placed at its gas inlet. 4. The compressor according to claim 1, characterized in that it contains a gas pipeline system and valves of the gas pipeline system. 5. The compressor according to claim 1, characterized in that it contains a water supply system and fittings of the water supply system. 6. The compressor according to claim 1, characterized in that it contains an automation system. 7. The compressor according to claim 1, characterized in that each of the heat exchangers contains at least three refrigerators connected in parallel, and a safety valve is installed at the outlet of each refrigerator. 8. The compressor according to claim 7, characterized in that the refrigerators are vertical. 9. The compressor according to claim 7, characterized in that the refrigerators are shell-and-tube, wherein each refrigerator is divided by a partition into a cavity of hot air and a cavity of cold air, and a purge valve is made in each cavity. 10. The compressor according to claim 1, characterized in that two parallel-connected check valves are installed at the output of the end heat exchanger. 11. The compressor of claim 10, characterized in that between the outlet of the end heat exchanger and the inlet of the check valves there is a gas discharge pipe, while a solenoid valve is placed on the aforementioned pipe. 12. The compressor according to claim 1, characterized in that the cylinders are double acting.