RU2684358C1 - Device for stabilization of pressure drop in gas pumping unit sealing system - Google Patents

Abstract

FIELD: gas industry.SUBSTANCE: invention relates to a device for stabilizing the differential pressure between sealing oil and gas in a sealing system of centrifugal superchargers of gas pumping units. Device comprises a housing, an upper cover, a lower cover, a piston with at least one gasket sealing oil, one gas gasket and a guide tape. Upper and lower covers are provided with fittings, and the piston is arranged to move linearly between the upper position, in which when the pressure of the oil seal, the value of which exceeds the value of the gas pressure in the cavity of the centrifugal supercharger, the piston is in contact with the upper cover of the hydraulic cylinder when filling the hydraulic cylinder with seal oil and the lower position, in which the piston moves under the influence of gas pressure in case of an emergency drop in pressure drop between the seal oil and gas, thus displacing the seal oil into the seal oil manifold. Device contains a control regulator that provides the value of the pressure drop between the seal oil and the gas in the range of values more than the alarm and less than the warning set point.EFFECT: decrease in operational expenses for repair of the device.3 cl, 2 dwg

Description

The invention relates to devices designed to stabilize the differential pressure between the sealing oil and gas in the sealing system of centrifugal blowers of gas pumping units in the event of shutdown of the seal pumps for a period of time before the emergency power source starts up or in the case of short-term voltage drops (2-20 sec) in the supply network .;

There are several types of sealing systems for different types of gas pumping units, involving the use of oil-gas floating rings, graphite seals, and dry seals as seals. All of the above systems contain a static emergency seal accumulator battery designed to provide autonomous operation and to prevent emergency shutdowns of the gas pumping unit due to the low pressure drop between the sealing oil and gas in the gas pumping unit centrifugal supercharger sealing system. The use of the specified emergency oil accumulator oil provides a margin of time (5-10 minutes) shutdown and bleed the cavity of the centrifugal blower in emergency situations after stopping the gas pumping unit.

The use of such sealing systems with a static emergency battery of sealing oil ensures the safe operation of the sealing systems of centrifugal superchargers of gas pumping units, but has a number of significant drawbacks, the main of which are:

- reduction of the pressure drop between the seal oil and the gas in the seal system of the centrifugal supercharger of the gas pumping unit to a level below the alarm value when the seal pumps are turned off due to redundancy or due to the power supply to the seal pumps, which, in turn, can lead to an emergency shutdown of the gas pumping unit due to a low differential pressure between seal oil and gas;

- at shutdown (even short-term) of the seal pumps from the static emergency accumulator of the seal oil, gassed oil enters the nodes and parts of the seal system, which leads to the negative impact and wear of the seal system nodes;

- hydraulic shocks in the sealing system when turning on / off the power supply to the sealing pumps, which lead to the destruction and reduction of the service life of graphite contact seals, which, in turn, can also lead to an emergency shutdown of the gas pumping unit due to the low pressure drop between the seal oil and gas;

- high operating costs for the repair of seals, commissioning and maintenance due to the high cost of components and unregulated repairs of centrifugal superchargers of gas pumping units.

A device is known for stabilizing the oil pressure in the lubrication system of gas pumping units after a voltage loss in the supply network before starting the emergency generator (publication of application for invention of the Russian Federation No. 2015153315/06 (082218)).

The specified device for stabilizing the oil pressure in the lubrication system of the gas-pumping unit is made in the form of a hydraulic cylinder located between the upper and lower bearings perpendicular to the lubrication manifold of the gas-pumping unit, comprising a housing, upper and lower covers, a piston with at least one seal and a guide tape and an air duct, the top cover of the hydraulic cylinder is equipped with a fitting for connecting the air duct, and the piston is made with the possibility of linear movement between the upper position, in when the oil pressure in the lubrication system of the gas pumping unit, the value of which exceeds the air pressure on the piston, said piston is in contact with the top cover of the hydraulic cylinder filled with oil, and the lower position in which the piston moves under the influence of air pressure in case of an emergency drop in oil pressure in the lubrication system thus displacing oil into the lubrication manifold of the gas pumping unit, while the air duct contains a pressure regulator that can be adjusted to the minimum required pressure during operation of the device, and the air duct is designed so that the air pressure value varies in a range of values greater than the alarm and less than the warning setting to ensure maximum operating time of the device.

The mentioned device allows to prevent oil pressure drops in the lubrication system of the gas pumping unit during the period after the voltage loss in the supply network before the emergency generator is started, and, as a result, provides a warning of the emergency shutdown of the gas pumping unit due to the emergency low oil pressure value. However, this device is not applicable for the sealing system of a centrifugal supercharger of a gas pumping unit, which does not allow, in case of shutdown of the seal pumps, to stabilize the pressure difference between the sealing oil and gas with this device and, as a result, to prevent the negative impact on the components of the centrifugal supercharger sealing system gas pumping unit due to hydraulic shocks in the sealing system and the supply of gas contaminated to the nodes of the sealing system I am.

The invention allows to solve the technical problem of creating a device that provides stabilization of the differential pressure between the seal oil and gas in the seal system of the centrifugal supercharger of the gas pumping unit in the event of shutdown of the seal pumps for a period of time before the emergency power supply starts up or in the case of short-term voltage drops (2-20 s) mains supply.

The technical result achieved by using the specified device is to prevent the negative impact on the nodes of the sealing system of the centrifugal supercharger of the gas pumping unit, caused by hydraulic shocks in the sealing system and the supply of gas contaminated to the nodes of the sealing system when switching on / off the power supply of the seal pumps, and, as a result, to reduce operating costs for the repair of these components due to wear and tear.

The indicated technical problem and the result is accordingly solved and achieved by the fact that the differential pressure stabilization device in the gas pumping unit sealing system is made in the form of a vertically mounted hydraulic cylinder containing a housing, a top cover, a bottom cover, a piston with at least one seal in oil seal, one gas seal and a guide tape, and the upper cover of the hydraulic cylinder is equipped with a fitting made with the possibility of connecting the gas line from the outlet of the centrifugal load of the carrier, the bottom cover of the hydraulic cylinder is equipped with a fitting configured to connect the seal oil line from the seal manifold of the gas pumping unit, and the piston is linearly movable between the upper position, in which, when the oil pressure is in the seal system of the gas pumping unit, the value of which exceeds the pressure value gas in the cavity of the centrifugal supercharger, the piston is in contact with the top cover of the hydraulic cylinder when filling the hydraulic cylinder with oil pack the lowering position, and the lower position, in which the piston moves under the influence of gas pressure in the event of an accidental drop in the pressure differential between the seal oil and the gas, thus displacing the seal oil into the seal manifold of the gas pumping unit, and the device contains a control regulator configured in such a way in order to provide a pressure differential between the seal oil and the gas in the range of values greater than the emergency and less than the warning setting to ensure maximum time p Device boots.

The indicated technical problems and the result are accordingly solved and achieved by the fact that the housing, upper cover, lower cover of the hydraulic cylinder of the differential pressure stabilization device in the gas pumping unit sealing system have a thickness and strength sufficient to operate under conditions of increased gas and oil pressure.

The specified technical problem and the result is accordingly solved and achieved by the fact that the control regulator of the differential pressure stabilization device in the gas pumping unit sealing system contains a control piston, at the opposite ends of which there are seats made with the ability to lock and open high and low gas pressure; adjusting washers and spring, providing adjustment of the response of the differential pressure between the seal oil and gas.

The differential pressure stabilization device in the sealing system of the gas pumping unit is illustrated by the description

a preferred embodiment thereof and with graphic materials, where in FIG. 1 shows a control regulator, and in FIG. 2, the device is shown in a prepared state for operation.

Next, with reference to the accompanying graphic materials, a differential pressure stabilization device in a gas pumping unit sealing system is described in accordance with a preferred embodiment of the utility model.

The control regulator contains a housing consisting of two parts connected between each other by bolts 3 of the lower - 1 and upper - 2 parts, as well as a control piston 6 with O-rings 8. To ensure the regulation of the differential oil seal, a spring 14 and control washers 7 are used.

At the opposite ends of the control piston 6 are a saddle 4 and a saddle 5, made with the possibility of locking and opening high and low gas pressure, through the fitting 15.

The gas is supplied from the compressor cavity through the nozzle 9, the sealing oil pressure is supplied through the nozzle 10, the gas pressure is supplied at the inlet of the compressor through the nozzle 11, the gas pressure is supplied to the hydraulic cylinder through the combined nozzles 12 and 13.

The differential pressure stabilization device in the gas pumping unit sealing system is a hydraulic cylinder located in close proximity to the gas pumping unit seal manifold 29, comprising a housing 22, a top cover 20, a lower cover 21, with sealing rings 19 and a piston 23.

The piston 23 comprises at least one gas side seal 18, one oil side seal 17 and a guide tape 16.

The bottom cover 21 of the hydraulic cylinder is equipped with a fitting 25 configured to connect the oil line of the seal from the manifold 29 of the seal gas of the gas pumping unit. The top cover 20 is equipped with a fitting 24, configured to connect a gas line from the output of a centrifugal supercharger:

The piston 23 is arranged to linearly move between the upper position, in which, when the sealing oil pressure is in the sealing system of the gas pumping unit, the value of which exceeds the gas pressure in the cavity of the centrifugal supercharger, the piston 23 is in contact with the upper cover 20 of the hydraulic cylinder when filling the hydraulic cylinder with sealing oil, and the lower the position in which the piston 23 moves under the influence of gas pressure when the pressure drop between the seal oil and gas falls below the set value the control regulator, thus displacing the seal oil into the manifold 29 of the gas of the gas pumping unit.

The differential pressure stabilization device in the sealing system of the gas pumping unit contains a control controller configured to supply pressure to the hydraulic cylinder from the inlet of the centrifugal supercharger when filling the hydraulic cylinder with sealing oil or pressure from the outlet of the centrifugal supercharger when the sealing oil is displaced into the manifold 29 of the sealing oil while reducing the differential pressure between the oil gas and gas below the set value, which does not allow the pressure drop between the oil to drop I gas below the alarm value.

To implement the invention, the differential pressure stabilization device in the sealing system of the gas pumping unit contains a check valve 26 and a nozzle 28, designed to prevent a sharp drop in pressure when filling the hydraulic cylinder with seal oil when the piston 23 is linearly moved towards the upper cylinder cover 20.

To implement the invention, the device for stabilizing the differential pressure in the sealing system of the gas pumping unit contains a ball valve 27 designed to shut off this device.

The following describes the operation of the differential pressure stabilization device in a gas pumping unit sealing system.

The main structural elements of the differential pressure stabilization device in the gas pumping unit sealing system are placed in close proximity to the gas pumping unit sealing oil manifold 29.

On a stopped gas pumping unit, when the oil pressure in the sealing system is zero, the piston 23 moves to the lower position under the influence of gas pressure at the outlet of the centrifugal supercharger.

When starting the gas pumping unit sealing system by means of an oil pump, the pressure increases and when the value exceeds the pressure value in the cavity of the centrifugal supercharger, the piston 23 starts linear movement to the upper position, and the hydraulic cylinder cavity is filled with seal oil. In this case, the piston 23 carries out linear movement towards the upper cover 20 of the hydraulic cylinder, equipped with a fitting 24 for connecting the gas line from the outlet of the centrifugal supercharger, until it comes into contact with it.

When the pressure difference between the seal oil and the gas in the seal system of the centrifugal supercharger of the gas pumping unit is lower than the setting of the control regulator (more than the emergency and less warning setting), the piston opens the seat of the control regulator by the spring of the control regulator on the high pressure side of the centrifugal supercharger, while the specified pressure is supplied to the hydraulic cylinder, and the piston 23 of the hydraulic cylinder under the action of gas pressure p moves to the lower position, providing the necessary pressure drop between the seal oil and the gas in the seal system of the centrifugal supercharger of the gas pumping unit.

The operating time of the differential pressure stabilization device in the sealing system of the gas pumping unit is determined by the volume of the displaced seal oil under the piston 23 and the differential value to which the control regulator is configured. For this, the cross-sectional area of the piston 23 and the length of the housing 22 of the hydraulic cylinder are selected accordingly.

The control regulator is adjusted by selecting the thickness of the regulating washers and the spring force of the control regulator in such a way as to ensure that the differential pressure between the seal oil and the gas in the range of values is greater than the emergency and less than the warning setting to ensure maximum operating time of the device.

Thus, the use of a differential pressure stabilization device in the sealing system of the gas pumping unit helps to prevent the negative impact on the nodes of the sealing system of the centrifugal supercharger of the gas pumping unit, caused by hydraulic shocks in the sealing system and the supply of gas contaminated to the nodes of the sealing system when the seal pump is turned on / off, and, as a result, it reduces operating costs for the repair of these components due to wear and tear sa or destruction.

You must understand that the above example embodiment of the invention is not limiting the scope of the invention, and, after reading the present description, specialists in the art can offer many changes and additions to the described embodiment, all of which fall within the scope of legal protection of the invention defined by the combination of features of its formula.

Claims (3)

1. The device for stabilizing the differential pressure between the seal oil and gas in the seal system of a centrifugal supercharger of a gas pumping unit, made in the form of a vertically mounted hydraulic cylinder containing a housing, a top cover, a lower cover, a piston with at least one seal in the seal oil, one gas seal and a guide tape, and the upper cover of the hydraulic cylinder is equipped with a fitting configured to connect the gas line from the outlet of the centrifugal supercharger, the lower cover of the hyd the cylinder is equipped with a fitting configured to connect the seal oil line from the seal manifold of the gas pumping unit, and the piston is capable of linear movement between the upper position, in which, when the seal oil pressure is in the seal system of the gas pumping unit, the value of which exceeds the gas pressure in the centrifugal cavity supercharger, the piston is in contact with the top cover of the hydraulic cylinder when filling the hydraulic cylinder with seal oil, and the lower position , into which the piston moves under the influence of gas pressure in the event of an accidental drop in the pressure differential between the seal oil and gas, thus displacing the seal oil into the seal manifold of the gas pumping unit, the device comprising a control regulator configured to provide a differential pressure value between the seal oil and the gas in the range of values is greater than the emergency and less than the warning setting to ensure maximum operating time of the device. 2. The device according to p. 1, characterized in that the housing, upper cover, lower cover of the hydraulic cylinder have a thickness and strength sufficient to work under conditions of high gas pressure and oil seal. 3. The device according to p. 1 or 2, characterized in that the control regulator contains a control piston, at the opposite ends of which are seats made with the ability to lock and open high and low gas pressure; adjusting washers and spring, providing adjustment of the response of the differential pressure between the seal oil and gas.

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