CN112013272A - Integrated natural gas production skid-mounted device for condensate oil and gas reservoir single-well gas gathering station - Google Patents

Abstract

The invention discloses an integrated natural gas production skid-mounted device for a condensate oil and gas reservoir single-well gas gathering station, and belongs to the field of oil and gas exploitation. The device comprises: the device comprises a sledge base, a heating unit and a separation unit; the heating unit includes: heating furnace; the heating furnace is fixed on the sledge base; the separation unit includes: a first separator and a second separator; the first separator is horizontally arranged, and the second separator is vertically arranged; the first separator is positioned above the heating furnace, and one end of the first separator is communicated with the second separator; the first separator is provided with a first sewage draining port, the upper end of the second separator is provided with an air draining port, and the lower end of the second separator is provided with a liquid draining port and a second sewage draining port in sequence. The invention improves the separation efficiency of gas and liquid in oil gas and the utilization rate of oil gas.

Description

Integrated natural gas production skid-mounted device for condensate oil and gas reservoir single-well gas gathering station

Technical Field

The invention relates to the field of oil and gas exploitation, in particular to an integrated natural gas production skid-mounted device for a gas gathering station of a condensate oil and gas reservoir single well.

Background

With the development of economy, the demand of energy is greater and greater, and the development of new energy becomes a necessary choice. The newly developed oil and gas fields are mainly distributed in areas such as gobi, deserts, mountainous areas and the like which have rare smoke, bad natural environment conditions and inconvenient traffic. The production mode and the production device designed for the conventional oil and gas field cannot meet the production requirement of newly developed oil and gas fields. Aiming at the special geographical environment of a newly developed oil and gas field, oil and gas exploitation is carried out by adopting a gas gathering station integrated production mode. When the gas gathering station integrated production mode is adopted for production, a gas gathering station integrated natural gas production skid-mounted device of a condensate oil gas reservoir single well is needed to realize the oil gas production of the single well of the oil gas field.

The condensate oil gas reservoir single well gas gathering station integrated natural gas production skid-mounted device that the correlation technique provided includes: a sledge seat, a heating furnace fixed on the sledge seat and a horizontal separator. The produced oil gas is heated in a heating furnace and then enters a horizontal separator for separation, the natural gas separated by the horizontal separator enters a pipeline for conveying, and the liquid is conveyed to a transfer station for treatment.

The inventors found that the related art has at least the following problems:

when the condensate oil gas reservoir single-well gas gathering station integrated natural gas production skid-mounted device provided by the related technology aims at the condition that the condensate oil gas field single-well liquid production capacity is large, the gas well wellhead liquid content is large, the liquid level in the horizontal separator is high, and the gas flowing space is small, so that the liquid content of a gas outlet is high, the gas content of a liquid outlet is high, the gas-liquid separation effect is poor, and the oil-gas utilization rate is low.

Disclosure of Invention

The embodiment of the invention provides an integrated natural gas production skid-mounted device for a gas gathering station of a condensate oil and gas reservoir single well, which can solve the technical problem. The technical scheme is as follows:

the utility model provides a condensate oil gas reservoir single well gas gathering station integration natural gas production sled dress device which characterized in that, the device includes: the device comprises a sledge base, a heating unit and a separation unit;

the heating unit includes: heating furnace; the heating furnace is fixed on the sledge base;

the separation unit includes: a first separator and a second separator; the first separator is horizontally arranged, and the second separator is vertically arranged;

the first separator is positioned above the heating furnace, and one end of the first separator is communicated with the second separator;

the first separator is provided with a first sewage draining port, the upper end of the second separator is provided with an air draining port, and the lower end of the second separator is provided with a liquid draining port and a second sewage draining port in sequence.

In one possible implementation, the apparatus further includes: a metering system, a blowdown system and a consumable gas system;

the metering system is connected with the exhaust port; the sewage discharge system is connected with the first sewage discharge port and the second sewage discharge port; the self-consuming gas system is connected with the second separator.

In one possible implementation, the metering system includes: a liquid level controller and a gas meter;

the liquid level controller and the gas meter are connected with the exhaust port.

In one possible implementation, the separation unit further includes: a mist catcher;

the mist catcher is positioned in the second separator and below the air outlet.

In one possible implementation, the heating unit further includes: a flameout protection device, a load adjusting device and an automatic ignition device;

the flameout protection device, the load adjusting device and the automatic ignition device are all positioned on the heating furnace.

In one possible implementation, the apparatus further includes: an emptying pipe;

the blow pipe is connected with the first separator.

In one possible implementation, the apparatus further includes: mounting a bracket;

one end of the mounting bracket is connected with the heating furnace, and the other end of the mounting bracket is connected with the first separator.

In one possible implementation, the apparatus further includes: a control unit;

the control unit is electrically connected with the heating furnace, the first separator and the second separator; the control unit is used for monitoring the process parameters or the running states of the heating furnace, the first separator and the second separator.

In one possible implementation, the control unit includes: the sensor and the terminal are electrically connected;

the sensor is electrically connected with the heating furnace, the first separator and the second separator;

the terminal is used for saving, storing or displaying the process parameters or the operating states of the heating furnace, the first separator and the second separator.

In one possible implementation, the first separator is a horizontal separator.

In one possible implementation, the second separator is a vertical separator.

In one possible implementation, the structural steel of the skid base includes: channel steel, angle steel and I-steel.

The technical scheme provided by the embodiment of the invention has the beneficial effects that at least:

aiming at a condensate oil-gas reservoir single well with a large liquid amount, the produced oil gas is heated in a heating furnace and then enters a first separator which is horizontally arranged, the gas and the liquid in the oil gas are primarily separated through the first separator which is horizontally arranged, the gas is settled and separated into most large-particle liquid drops in a gas phase space by gravity, most bubbles and impurities are separated from the liquid in a liquid phase space, and part of the impurities are discharged through a first drainage port; the gas-liquid two phases after the preliminary separation enter a second separator which is vertically arranged, the gas moves upwards in the second separator due to the opposite moving directions of the gas-liquid two phases through the second separator which is vertically arranged, so that residual large-particle liquid drops are separated, and the liquid moves downwards due to the action of gravity, so that residual bubbles and impurities are separated; and the gas separated by the second separator is discharged through the gas outlet and enters the self-gas consumption system and the gas pipe network, the separated liquid is discharged through the liquid outlet, and the residual impurities are discharged through the second sewage outlet. By horizontal and vertical two-stage separation, the gas-liquid separation efficiency and the oil-gas utilization rate of the condensate oil-gas reservoir single well oil gas are improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a top view of a natural gas skid provided by an embodiment of the present invention;

FIG. 2 is a top view of a natural gas skid provided by an embodiment of the present invention;

fig. 3 is a front view of a natural gas skid provided by an embodiment of the present invention.

The reference numerals denote:

1-skid seat, 2-heating unit, 3-separation unit, 31-first separator, 32-second separator, 321-exhaust port, 322-liquid discharge port, 323-sewage discharge port, 4-vent pipe and 5-mounting bracket.

Detailed Description

Unless defined otherwise, all technical terms used in the examples of the present invention have the same meaning as commonly understood by one of ordinary skill in the art.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

For newly developed oil and gas fields, due to the fact that geographical positions are far away from a gathering and transportation system of onshore oil and gas fields, production is obviously not suitable for the requirements of efficient development of the oil and gas fields by adopting a conventional station building mode, and the requirements of efficient production building, low-consumption operation and digital management development of the oil and gas fields can be met only by continuously improving, upgrading and researching new oil and gas field process technologies and production equipment.

The single-well natural gas production of the condensate oil and gas reservoir at the present stage mainly adopts a gas gathering station integrated production mode. The heating furnace 21 and the gas-liquid separator are combined into a whole through the condensate oil gas reservoir single-well gas gathering station integrated natural gas production skid-mounted device, the metering system, the blowdown system and the consumable gas system are connected into a whole, and meanwhile, the corrosion inhibitor filling system is used for acid oil gas reservoirs, so that high integration of equipment and equipment functions is realized, the construction and construction period is shortened, the engineering investment is reduced, and the construction efficiency of an oil gas field is improved.

However, the existing condensate oil and gas reservoir single-well gas gathering station integrated natural gas production skid-mounted device is developed for a gas well in an oil and gas field, and a horizontal separator is adopted for gas-liquid separation due to the fact that the liquid content of the gas well is small, and the gas-liquid separation effect is good. However, when the device is used for treating an oil well with a large liquid production rate of the oil well such as a condensate reservoir, the liquid level of the horizontal separator is high due to the large liquid content of the well head, the space of gas is small, the liquid content of the gas outlet is high, the gas content of the liquid outlet is high, and the gas-liquid separation effect is poor.

Aiming at the limitation of a natural gas production device provided by the related technology in the process of processing oil production liquid of a condensate oil gas reservoir oil well, the embodiment of the invention provides an integrated natural gas production skid-mounted device for a condensate oil gas reservoir single-well gas gathering station.

The embodiment of the invention provides an integrated natural gas production skid-mounted device for a gas gathering station of a condensate oil and gas reservoir single well, which comprises the following components in percentage by weight as shown in figure 1, figure 2 or figure 3: a sledge base 1, a heating unit 2 and a separation unit 3;

the heating unit 2 includes: a heating furnace 21; the heating furnace 21 is fixed on the sledge base 1;

the separation unit 3 includes a first separator 31 and a second separator 32; the first separator 31 is horizontally disposed, and the second separator 32 is vertically disposed;

the first separator 31 is positioned above the heating furnace 21, and one end thereof communicates with the second separator 32;

the second separator 32 has an exhaust port 321 at the upper end thereof and a drain port and a drain outlet at the lower end thereof.

The device provided by the embodiment of the invention at least has the following technical effects:

according to the device provided by the embodiment of the invention, for the condensate oil-gas well with a large liquid amount, the produced oil-gas is heated and throttled in the heating furnace 21 and then enters the horizontally arranged first separator 31, the gas and the liquid in the oil-gas are primarily separated through the horizontally arranged first separator 31, the gas is settled and separated into most of large-particle liquid drops in a gas phase space by gravity, most of bubbles and impurities are separated from the liquid in a liquid phase space, and the impurities are discharged through the first drain outlet. The gas and liquid after the preliminary separation enter the second separator 32 which is vertically arranged, the gas moves upwards in the second separator 32 which is vertically arranged due to the opposite moving directions of the gas phase and the liquid phase through the second separator 32 which is vertically arranged, and the liquid moves downwards due to the action of gravity and the residual gas is separated. The gas is discharged through the gas outlet 321, the separated liquid is discharged through the liquid outlet 322, and the remaining impurities are discharged through the second soil outlet 323. Through horizontal and vertical two-stage separation, the separation efficiency of gas-liquid in oil gas and the utilization ratio of oil gas are improved.

The apparatus provided by embodiments of the present invention will be further described below by way of alternative embodiments.

The type or model of the heating furnace 21 is determined by the heating furnace 21 according to the content of the heating oil gas or the composition of the oil gas.

As an example, the heating furnace 21 provided in the embodiment of the present invention may be a water jacket furnace. The barrel in the water jacket furnace is provided with a fire barrel, a smoke pipe, a coil pipe and other parts. After the fuel is burnt in the fire tube, the generated heat energy is transferred to the water in the water jacket furnace in a radiation and convection mode, so that the temperature of the water is increased and the water is partially gasified. The water and the steam transfer the heat to the oil gas in the coil pipe, so that the oil gas obtains the heat and the temperature is increased. The oil gas is heated by the water jacket furnace, so that crude oil is prevented from coking.

Illustratively, the coil in the water jacket furnace provided by the embodiment of the invention is a two-stage coil, and by arranging the two-stage coil, the time required by heating is reduced, and the heating efficiency is improved.

In one possible implementation, the first separator 31 provided in the embodiment of the present invention is a horizontal separator.

The oil gas heated by the heating furnace 21 firstly enters a horizontal separator for primary separation, and the diameter of the horizontal separator is much smaller than that of the vertical separator under the same treatment condition. Therefore, when the gas amount is large, the oil gas with large gas content is separated by the horizontal separator, and the separation efficiency is improved.

When the single well liquid production capacity is large, the liquid level in the horizontal separator is high due to the large liquid content of the well head, and the gas flowing space is small, so that the liquid content of the gas outlet is high, the gas content of the liquid outlet is high, the gas-liquid separation effect is poor, and the oil-gas utilization rate is low. Therefore, the embodiment of the present invention re-separates the primarily separated gas and liquid by the second separator 32 disposed vertically.

In one possible implementation, the second separator 32 provided in the embodiment of the present invention may be a vertical separator.

After the residual gas and liquid enter the vertical separator, the liquid moves downwards due to the action of gravity, the gas moves upwards and is separated through the gas outlet 321 at the upper end of the vertical separator, the liquid is discharged through the liquid outlet 322 at the lower end of the vertical separator, and impurities deposited at the bottom of the vertical separator are discharged through the second sewage outlet 323.

So set up, to the great oil gas of liquid content, when can not separate completely through horizontal separator, separate once more through vertical separator, improved the efficiency of gas-liquid separation in the oil gas. The content of impurities in the oil gas can be reduced, and the utilization rate of the oil gas is improved.

In one possible implementation, the apparatus further includes: a metering system, a blowdown system and a consumable gas system;

the metering system is connected with the exhaust port 321 and the second separator 32, the sewage system is connected with the first sewage outlet and the second sewage outlet, and the self-consuming gas system is connected with the second separator 32.

According to the device provided by the embodiment of the invention, the content of the oil gas entering the heating furnace 21 is measured by arranging the measuring system, the measured content is used for calculating the heat required by the heating furnace 21, and then the type or type of the heating furnace 21 is selected. The gas separated in the second separator 32 is metered.

It can be understood that the produced oil gas contains impurities, the impurities in the oil gas can be separated after the gas and the liquid in the oil gas are separated, and the separated impurities are treated by arranging a sewage discharge system, so that the environment protection is facilitated.

By arranging the consumable gas system, the gas demand of the heating furnace is met, and the consumption of natural gas consumed by the heating furnace 21 is measured.

In one possible implementation, a metering system includes: a liquid level controller and a gas meter;

the liquid level controller and the gas meter are both connected with the gas outlet 321.

By providing the liquid level controller, the liquid level of the liquid separated by the second separator 32 is measured, and when the liquid level of the liquid is higher than a set value, the valve opening of the liquid discharge port is adjusted.

By arranging the gas meter, the gas separated by the second separator 32 is measured in real time, so that the separation effect of the first separator 31 and the second separator 32 is monitored and controlled, and the separation efficiency is improved.

For example, the gas meter provided by the embodiment of the invention can be a flow meter without straight pipes in front and back. The device can be suitable for different environments, and the applicability of the device is improved.

The device provided by the embodiment of the invention integrates the heating furnace 21, the first separator 31, the second separator 32, the metering system, the blowdown system, the consumable gas system and other scattered devices in the single-well gas station into a whole, and forms a combined device of integral manufacture, integral transportation and integral installation. Through the device, exploitation of newly developed oil and gas wells with remote geographic environment and inconvenient traffic can be realized. The process flow and ground facilities of the condensate oil-gas well exploitation are optimized, and the exploitation cost is reduced. The construction environment is improved.

The lower end of the second separator 32 provided by the embodiment of the invention is sequentially provided with a liquid outlet 322 and a second sewage outlet 323, impurities can settle to the bottom of the second separator 32 under the action of gravity, and liquid is located on the upper surface of the impurities. Therefore, by disposing the second drain 323 below the drain 322, the liquid level controller controls the draining of the liquid, and when the liquid level of the liquid is higher than the set value, the valve opening of the drain is adjusted. The impurities precipitated at the bottom of the second separator 32 are discharged through the second drain 323.

So set up, separated liquid and impurity, improved the recycle ratio of liquid, also protected the environment.

In a possible implementation, the separation unit 3 further comprises: a mist catcher;

the mist trap is located within the second separator 32 and below the exhaust port 321.

The gas, after entering the second separator 32, will carry with it part of the droplets. The mist catcher is arranged to intercept liquid drops in the rising gas, so that the purity of the separated gas is improved. The height of the mist trap below the gas outlet 321 may be determined according to the amount of gas and liquid entering the second separator 32. For example, when the content of the gas and liquid entering the second separator 32 is larger, the content of the ascending gas is relatively larger, and the content of the entrained liquid droplets is also larger, in this case, the distance from the mist catcher to the second gas outlet 321 may be longer, so as to achieve the effect of intercepting the liquid droplets. When the gas-liquid content entering the second separator 32 is small, the rising gas content will be relatively small and the entrained liquid droplets content will be small, and the mist trap may be closer to the gas outlet 321.

In a possible implementation, the heating unit 2 further comprises: a flameout protection device, a load adjusting device and an automatic ignition device;

the flameout protection device, the load adjusting device and the automatic ignition device are all positioned on the heating furnace 21.

The heating furnace 21 provided by the embodiment of the invention needs ignition when heating, and needs to be turned off when stopping heating, and because the heating furnace 21 has pressure or temperature drop in the process of turning off the fire, and has potential safety hazard, the flameout protection device is arranged to be connected with the heating furnace 21, and when the heating furnace 21 is flameout, the heating furnace 21 is flameout according to a certain sequence and steps, so that the safety of the heating furnace 21 is ensured.

The load of the heating furnace 21 is adjusted by changing the amount of fuel in the heating furnace 21 and the amount of wind in accordance with the amount of fuel. The load adjusting device provided by the embodiment of the invention is connected with the heating furnace 21, and adjusts the fuel and the intake air volume of the heating furnace 21 so as to adjust the load of the heating furnace 21 and keep the heating furnace 21 in an efficient working state.

The heating furnace 21 is ignited by providing an automatic ignition device connected to the heating furnace 21.

In one possible implementation, as shown in fig. 2, a safety valve and a blow valve are provided above the first stage separator, both connected to the blow pipe 4 by pipes.

Through setting up blow-down pipe 4, blow-down pipe 4 is connected with first separator 31, when the pressure in first separator 31 and the second separator 32 is higher, or when needing to overhaul first order separation 31 and second level separator 32, releases the pressure in first separator 31 and the second separator 32 through blow-down pipe 4, guarantees the safety of device.

In one possible implementation, as shown in fig. 3, the apparatus further includes: a mounting bracket 5;

the mounting bracket 5 has one end connected to the heating furnace 21 and the other end connected to the first separator 31.

The first separator 31 is provided above the heating furnace 21 according to the embodiment of the present invention, and the first separator 31 is connected to the heating furnace 21 through the mounting bracket 5.

Illustratively, the mounting bracket 5 and the heating furnace 21 and the first separator 31 may be fixedly connected to ensure the stability of the device. For example, welding or the like may be used.

In one possible implementation, the apparatus further includes: a control unit;

the control unit is electrically connected with the heating furnace 21, the first separator 31 and the second separator 32; the control unit is used for monitoring the process parameters or the operating state of the heating furnace 21, the first separator 31 and the second separator 32.

Through setting up the equal electric connection of control unit and heating furnace 21, first separator 31, second separator 32, can the equal electric connection's of real-time supervision heating furnace 21, first separator 31, second separator 32 technological parameter or running state, carry out remote control and control to the device, guarantee the safe high-efficient operation of device.

In one possible implementation, the control unit includes: the sensor and the terminal are electrically connected;

the sensor is electrically connected with the heating furnace 21, the first separator 31 and the second separator 32. The terminal is used for saving, storing or displaying the process parameters or the operation states of the heating furnace 21, the first separator 31 and the second separator 32.

The sensor is electrically connected with the heating furnace 21, the first separator 31 and the second separator 32, the process parameters, the running state and other information of the heating furnace 21, the first separator 31 and the second separator 32 are transmitted to the terminal, the information is stored, stored or displayed through the terminal, and an operator can control the single-well oil and gas exploitation operation by observing the process parameters, the running state and other information displayed by the terminal in time. By the arrangement, the real-time control of the oil well is realized, the operation efficiency is improved, and the labor cost is reduced.

As an example, the terminal provided in the embodiment of the present invention may be any electronic product that can perform human-Computer interaction with a user through one or more manners such as a keyboard, a touch pad, a touch screen, a remote controller, voice interaction, or a handwriting device, for example, a PC (Personal Computer), a mobile phone, a smart phone, a PDA (Personal Digital Assistant), a PPC (Pocket PC, palmtop), a tablet Computer, a smart car, a smart television, a smart sound box, and the like.

In a possible implementation, the structural section steel of the skid base 1 includes: channel steel, angle steel and I-steel.

The position of the heating furnace 21 on the skid base 1 provided by the embodiment of the present invention can be analyzed according to the strength of the heating furnace 21, the strength and the stress of the first separator 31 and the second separator 32, and a reference supporting point can be selected, and the supporting point can ensure the stability between the first separator 31 and the heating furnace 21, and between the heating furnace 21 and the skid base 1.

When the second separator 32, the metering system, the blowdown system, the consumable gas system and the like provided by the embodiment of the invention are installed, the stress conditions of the components are analyzed according to the strength of the different components, and the stress conditions are determined on the premise of considering the stability of the skid base 1.

All the above optional technical solutions may be combined arbitrarily to form the optional embodiments of the present disclosure, and are not described herein again.

The above description is only an illustrative embodiment of the present invention, and should not be taken as limiting the scope of the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a condensate oil gas reservoir single well gas gathering station integration natural gas production sled dress device which characterized in that, the device includes: a sledge base (1), a heating unit (2) and a separation unit (3);

the heating unit (2) comprises: a heating furnace (21); the heating furnace (21) is fixed on the sledge base (1);

the separation unit (3) comprises: a first separator (31) and a second separator (32); the first separator (31) is arranged horizontally, and the second separator (32) is arranged vertically;

the first separator (31) is positioned above the heating furnace (21), and one end of the first separator is communicated with the second separator (32);

the first separator (31) is provided with a first sewage discharge port, the upper end of the second separator (32) is provided with an air exhaust port (321), and the lower end of the second separator (32) is sequentially provided with a liquid discharge port (322) and a second sewage discharge port (323).

2. The apparatus of claim 1, further comprising: a metering system, a blowdown system and a consumable gas system;

the metering system is connected with the exhaust port (321); the sewage discharging system is connected with the first sewage discharging port and the second sewage discharging port (323); the consumer gas system is connected to the second separator (32).

3. The apparatus of claim 2, wherein the metering system comprises: a liquid level controller and a gas meter;

the liquid level controller and the gas meter are both connected with the gas outlet (321).

4. The device according to claim 1, wherein the separation unit (3) further comprises: a mist catcher;

the mist trap is located within the second separator (32) and below the exhaust port (321).

5. The device according to claim 1, wherein the heating unit (2) further comprises: a flameout protection device, a load adjusting device and an automatic ignition device;

the flameout protection device, the load adjusting device and the automatic ignition device are all positioned on the heating furnace (21).

6. The apparatus of any of claims 1-5, further comprising: a blow-down pipe (4);

the blow pipe (4) is connected with the first separator (31).

7. The apparatus of any of claims 1-5, further comprising: a mounting bracket (5);

one end of the mounting bracket (5) is connected with the heating furnace (21), and the other end of the mounting bracket is connected with the first separator (31).

8. The apparatus of any of claims 1-5, further comprising: a control unit;

the control unit is electrically connected with the heating furnace (21), the first separator (31) and the second separator (32); the control unit is used for monitoring the process parameters or the running state of the heating furnace (21), the first separator (31) and the second separator (32).

9. The apparatus of claim 8, wherein the control unit comprises: the sensor and the terminal are electrically connected;

the sensor is electrically connected with the heating furnace (21), the first separator (31) and the second separator (32);

the terminal is used for storing or displaying the process parameters or the operating states of the heating furnace (21), the first separator (31) and the second separator (32).

10. Device according to any of claims 1 to 5, characterized in that the skid base (1) is formed of a profile steel comprising: channel steel, angle steel and I-steel.

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