CN211847817U - Associated gas light hydrocarbon recovery system for dry gas low-pressure expansion oil field - Google Patents

Abstract

The utility model relates to a dry gas low pressure expansion oil field associated gas lighter hydrocarbons recovery system, its characterized in that includes feed gas compressor, feed gas cooler one, three-phase separator one, heavy hydrocarbon pump wait for one's time, feed gas compressor one end and principle admission line are connected, the utility model discloses a refrigeration technology combines together with rectification technology, can effectively adapt to the operating mode of the different gas natures of oil field associated gas, provides the prerequisite for obtaining higher C3+ yield.

Description

Associated gas light hydrocarbon recovery system for dry gas low-pressure expansion oil field

Technical Field

The application relates to the field of oilfield associated gas treatment, in particular to a dry gas low-pressure expansion oilfield associated gas light hydrocarbon recovery system.

Background

During the process of crude oil recovery, relatively light components such as methane, ethane, propane, n-butane, isobutane, n-pentane, isopentane, neopentane and the like, which are generally dissolved in crude oil, are separated out, and are called oilfield associated gas and are another source of natural gas. These hydrocarbons are important fuel sources and chemical raw materials, and if they are recovered, they are advantageous in solving environmental problems and increasing economic efficiency. The oilfield associated gas contains more than C3+, is a high-quality fuel, generally adopts a direct cooling liquefaction process, but has low yield of C3+, causes a large amount of more than C3+ components to be emptied, and forms serious resource waste. Because the associated gas composition has a large variation range, the gas amount is unstable in winter and summer, and the general process recovery is difficult, and the design of a recovery method with a wide application range and high efficiency through process optimization becomes an urgent task.

In the existing treatment, throttle valve refrigeration, direct heat exchange process, expansion refrigeration process and cold oil absorption process are adopted. Throttling refrigeration is suitable for use with very high pressure gas layer gases (10MPA or higher), and associated gases are typically at relatively low pressures and are not suitable for use in this form for hydrocarbon recovery.

Disclosure of Invention

According to the technical problems, the application provides a dry gas low-pressure expansion oilfield associated gas light hydrocarbon recovery system which is characterized by comprising a raw gas compressor, a raw gas cooler I, a three-phase separator I, a heavy hydrocarbon pump I, an expansion compressor, a raw gas cooler II, a three-phase separator II, a dehydration drying system, a deethanization rectifying tower reboiler, a low-temperature gas-liquid separator, a heavy hydrocarbon reflux pump, an expander, a pre-refrigeration compressor unit, a cold box, a stable light hydrocarbon tower reboiler, a liquefied gas rectifying tower condenser, a liquefied gas rectifying tower reflux tank, a liquefied gas rectifying tower reflux pump and a liquefied gas rectifying tower reboiler, wherein one end of the raw gas compressor is connected with a principle air inlet pipeline, the other end of the raw gas compressor is connected with the raw gas cooler I through a pipeline, and the raw gas cooler I is connected with the three, the first three-phase separator is connected with a wastewater recovery pipeline, an expansion compressor and a heavy hydrocarbon pump, the first heavy hydrocarbon pump is connected with a second three-phase separator through a pipeline, the expansion compressor is connected with a second feed gas cooler through a pipeline, the second feed gas cooler and the second three-phase separator are connected with a dehydration drying system and a stable light hydrocarbon tower, the dehydration drying system is connected with a cold box through a pipeline, the stable light hydrocarbon tower is connected with a reboiler of the stable light hydrocarbon tower through a pipeline, the reboiler of the stable light hydrocarbon tower and the reboiler of the stable light hydrocarbon tower are of a circulating structure, the stable light hydrocarbon tower is connected with a liquefied gas rectifying tower through a pipeline, the pipeline of the dehydration drying system passes through the cold box and is connected with a deethanizer, the reboiler of the deethanizer and the reboiler of the deethanizer are of a circulating structure, and the deethanizer is connected with a heavy hydrocarbon reflux pump through a pipeline, the heavy hydrocarbon reflux pump is connected with the low-temperature gas-liquid separator, the cold box is also connected with a dry gas recovery pipeline, a pre-cooling compressor unit, an expansion machine and the low-temperature gas-liquid separator, the low-temperature gas-liquid separator passes through the cold box through a pipeline and is connected with the expander, the low-temperature gas-liquid separator passes through the cold box through a pipeline and is connected with the deethanizing rectifying tower, the expansion machine passes through the cold box through a pipeline and is connected with a dry gas recovery pipeline, the deethanization rectifying tower is connected with a liquefied gas rectifying tower, the liquefied gas rectifying tower and the reboiler of the liquefied gas rectifying tower are of a circulating structure, the liquefied gas rectifying tower is also connected with a gas recovery pipeline, a reflux pump of the liquefied gas rectifying tower, a liquefied petroleum gas recovery pipeline and a condenser of the liquefied gas rectifying tower, the reflux pump of the liquefied gas rectifying tower is connected with the reflux tank of the liquefied gas rectifying tower, and the reflux tank of the liquefied gas rectifying tower is connected with the condenser of the liquefied gas rectifying tower.

The stable light hydrocarbon tower is a stripping tower, the oil phase enters the top of the stable light hydrocarbon tower to be used as reflux, a reboiler is arranged at the bottom of the tower, light components are evaporated out from the top of the tower through heating, the light components enter a feed gas compressor to be re-pressurized to enter a three-phase separator II, and light hydrocarbons at the bottom of the tower enter a liquefied gas rectifying tower.

The liquefied gas rectifying tower is respectively connected with the two feed ports, and the qualified liquefied gas product is obtained at the tower top through rectification, and the light oil mainly containing C5 and above components is obtained at the tower bottom and enters an oil product storage tank or is further processed and treated.

The cold energy of gas phase condensation is provided by a pre-cooling unit and an expansion unit.

The cold energy of gas phase condensation is provided by two groups of refrigerators, one group is a precooling unit of closed refrigeration cycle, the refrigerant medium is a single medium comprising propane, ammonia, R134a and R22, the cold source of a high temperature section is provided, the refrigeration temperature range is-10 ℃ to-40 ℃, the other group is an expander for refrigeration, the high pressure feed gas is expanded through entropy, the enthalpy value is reduced, the temperature is reduced to-60 ℃ to-90 ℃, a large amount of cold energy is provided for device liquefaction, meanwhile, the work is provided for a feed gas pressurizing end, and the energy consumption of the pressurizing end is reduced. Saves investment, reduces energy consumption, and the yield of C3 can reach 99 percent.

The cold box is respectively connected with the precooling compressor, the expansion machine and the low-temperature gas-liquid separation tank through pipelines, the precooling compressor is also connected with the precooling compressor gas-liquid separation tank and the precooling compressor outlet cooler, the precooling compressor outlet cooler is connected with the precooling compressor gas-liquid separation tank through a pipeline, a throttling valve is installed on the pipeline, and the expansion machine is connected with the cold box through a pipeline.

The expansion compressor and the expansion machine are of a connecting shaft structure, the expansion machine expands through heat insulation, the internal energy is converted into mechanical energy, the mechanical energy is converted into the internal energy through the coupling expansion compressor, the raw material gas is pressurized, and energy consumption required by raw material gas pressurization is saved.

The utility model provides a dry gas low pressure expansion oil field associated gas lighter hydrocarbons recovery system which specifically uses the step to be:

the method comprises the following steps of pressurizing a raw material gas to 14-25 bar by a raw material gas compressor, cooling the raw material gas to about 40 ℃ by a heat exchanger, entering a first three-phase separator, entering a gas phase into an expansion compressor, delivering a liquid phase into a second three-phase separator by a heavy hydrocarbon pump, entering a water phase into a sewage tank, compressing the gas phase to about 20-30 bar by the expansion compressor, cooling the gas phase to about 40 ℃ by the heat exchanger, entering the second three-phase separator, entering the gas phase into a dehydration and drying system, wherein the dehydration and drying system comprises one of molecular sieve drying and dehydration, ethylene glycol dehydration and triethylene glycol dehydration, entering an oil phase into a stable light hydrocarbon tower, entering the water phase into the sewage tank, entering the raw material gas dehydrated by the drying system into a cold box, cooling the gas phase to-5 ℃, entering the middle part of an deethanizing rectifying tower, separating light components of methane and ethane, entering the cold, and the gas phase enters the expander after being reheated by the cold box, the expanded low-temperature gas returns to the cold box again for reheating, and finally enters a natural gas pipe network to be conveyed to a user terminal. The liquid phase is conveyed to the top of the deethanizing rectifying tower through a cryogenic pump and used as reflux at the top of the deethanizing rectifying tower, and the bottom material of the deethanizing rectifying tower enters a liquefied gas rectifying tower.

The beneficial effect of this application does: the refrigeration technology and the rectification technology are combined, so that the working conditions of different gas qualities of the oilfield associated gas can be effectively adapted, and necessary conditions are provided for obtaining higher C3+ yield. The deethanizing rectifying tower is a rectifying tower, methane and ethane are separated, the gas phase at the top of the tower hardly contains components of C3 and above, the top of the tower is refluxed by low-temperature liquid, and a tower kettle is heated by a reboiler; the process designs a stable light hydrocarbon tower, can directly convey raw materials rich in C3 and above components to a liquefied gas rectifying tower for rectification, and reduces the load of a refrigerating device and the handling capacity of a deethanizing rectifying tower; the cold energy is composed of two groups of cold energy with different grades, one group is a cold source provided by a single refrigerant medium (comprising propane, ammonia, R134a and R22) at a high temperature section, the other group is a cold source provided by a cryogenic section by utilizing the expansion refrigeration of feed gas through an expander, and the refrigeration temperature range is-60 ℃ to-90 ℃. The yield of C3 in the device is more than 99%.

The method combines refrigeration of a refrigerator, expansion refrigeration and rectification, and can effectively solve the problem of low yield of C3 +. The expansion unit expands through entropy, and enthalpy value reduces, provides a large amount of cold for the device liquefaction, does work for the feed gas pressure boost end simultaneously, reduces the energy consumption of whole device. The design of this application stability light hydrocarbon tower can reduce refrigerating plant's load and the handling capacity who takes off ethane rectifying column in the face of the raw materials that is rich in C3 and above component. This application has increased precooling compressor group, can solve when rich gas is heavier, the problem that expander refrigerating capacity is not enough can be faced different gas quality and constitute, and adaptability is stronger. The method has the advantages of simple process, short flow, low energy consumption, reasonable design, low investment and high C3+ yield.

The method is also suitable for light hydrocarbon recovery places such as natural gas well head gas, natural gas condensate gas, crude oil tank zone flash steam and the like.

Drawings

Fig. 1 is a schematic structural diagram of the present application.

Fig. 2 is a schematic diagram of the connection between the application cold box and the pre-cooling compressor.

As shown in figure, 1-raw gas compressor; 2-raw material gas cooler I; 3-a first three-phase separator; 4-heavy hydrocarbon pump one; 5-an expansion compressor; 6-a second raw gas cooler; 7-a second three-phase separator; 8-a dehydration drying system; 9-deethanizing rectification column; a 10-deethanizer rectification column reboiler; 11-low temperature gas-liquid separator; 12-heavy hydrocarbon reflux pump; 13-an expander; 14-a pre-refrigeration compressor train; 15-a cold box; a 16-stable light hydrocarbon column; 17-a stable light hydrocarbon column reboiler; 18-liquefied gas rectifying tower. 19-a liquefied gas rectification column condenser; 20-a liquefied gas rectifying tower reflux tank; 21-a reflux pump of the liquefied gas rectifying tower; 22-a liquefied gas rectifying tower reboiler and a cold box 15-1.

Detailed Description

The application is further explained with reference to the figures:

example 1

The application provides a dry gas low pressure expanded oilfield associated gas light hydrocarbon recovery system, 1 one end of a feed gas compressor is connected with a raw material gas inlet pipeline, the other end is connected with a feed gas cooler 2 through a pipeline, the feed gas cooler 2 is connected with a three-phase separator 3, the three-phase separator 3 is also connected with a wastewater recovery pipeline, an expansion compressor, a heavy hydrocarbon pump 4 is connected, the heavy hydrocarbon pump 4 is connected with a three-phase separator 7 through a pipeline, the expansion compressor is connected with the feed gas cooler 6 through a pipeline, the feed gas cooler 6 is connected with the three-phase separator 7, the three-phase separator 7 is also connected with a dehydration drying system 8, a stable light hydrocarbon tower 16 is connected with a dehydration drying system 8, the dehydration drying system 8 is connected with a pipeline, the stable light hydrocarbon tower 16 is connected with a stable light hydrocarbon tower 17 through a pipeline, the stable light hydrocarbon tower 17 and the stable light hydrocarbon tower 16 are of a circulating structure, the stable light hydrocarbon tower 16 is also connected with a, the dehydration drying system 8 pipeline passes through a cold box 15 to be connected with a deethanizing rectifying tower 9, the deethanizing rectifying tower 9 and a deethanizing rectifying tower reboiler 10 are of a circulating structure, the deethanizing rectifying tower 9 is connected with a heavy hydrocarbon reflux pump 12 through a pipeline, the heavy hydrocarbon reflux pump 12 is connected with a low-temperature gas-liquid separator 11, the cold box 15 is also connected with a dry gas recovery pipeline, a pre-cooling compressor unit 14, an expander 13 and the low-temperature gas-liquid separator 11, the low-temperature gas-liquid separator 11 passes through the cold box 15 through a pipeline to be connected with the expander 13, the low-temperature gas-liquid separator 11 passes through the cold box 15 through a pipeline to be connected with the deethanizing rectifying tower 9, the expander 13 passes through the cold box 15 through a pipeline to be connected with the dry gas recovery pipeline, the deethanizing rectifying tower 9 is connected with a liquefied gas rectifying tower 18, the liquefied gas rectifying tower 18 and a liquefied gas rectifying tower 22 are of a circulating structure, The liquefied gas rectifying tower reflux pump 21, the liquefied petroleum gas recovery pipeline and the liquefied gas rectifying tower condenser 19 are connected, the liquefied gas rectifying tower reflux pump 21 is connected with the liquefied gas rectifying tower reflux tank 20, and the liquefied gas rectifying tower reflux tank 20 is connected with the liquefied gas rectifying tower condenser 19. The cold box 15-1 is respectively connected with the precooling compressor and the precooling compressor gas-liquid separation tank through pipelines, the precooling compressor is also connected with the precooling compressor gas-liquid separation tank and the precooling compressor outlet cooler, the precooling compressor outlet cooler is connected with the precooling compressor gas-liquid separation tank through a pipeline, a throttle valve is installed on the pipeline, and the expansion machine is connected with the cold box through a pipeline.

Example 2

The application provides a dry gas low pressure expansion oil field associated gas lighter hydrocarbons recovery system, its specific operating procedure is:

the raw material gas is pressurized to 14-25 bar by a raw material gas compressor 1, the raw material gas is cooled to about 40 ℃ by a heat exchanger and enters a first three-phase separator 3, the gas phase enters a compression section of an expansion compressor, the liquid phase is conveyed to a second three-phase separator 7 by a heavy hydrocarbon pump, the water phase enters a sewage tank, the gas phase is compressed to about 20-30 bar by the expansion compressor and then is cooled to about 40 ℃ by the heat exchanger and enters the second three-phase separator 7, the gas phase enters a dehydration drying system 8, the dehydration drying system 8 comprises one of molecular sieve drying dehydration, ethylene glycol dehydration and triethylene glycol dehydration, the oil phase enters a stable light hydrocarbon tower 16, the stable light hydrocarbon tower 16 is a stripping tower, the oil phase enters the top of the stable light hydrocarbon tower 16 and serves as reflux, a light hydrocarbon is arranged at the bottom of the tower, light components are evaporated from the top of the tower by, the light hydrocarbon at the bottom of the tower enters a liquefied gas rectifying tower 18. The liquefied gas rectifying tower 18 is respectively connected with two feed ports, and the qualified liquefied gas product is obtained at the tower top through rectification, and the light oil mainly containing C5 and above components is obtained at the tower bottom and enters an oil product storage tank or is further processed and treated. The water phase enters a sewage tank, the feed gas dehydrated by a drying system enters a cold box 15 to be cooled to-5 ℃, the feed gas enters the middle part of a deethanizing rectifying tower 9 to separate light components of methane and ethane, the gas phase at the top of the deethanizing rectifying tower 9 enters the cold box 15 to be further cooled and liquefied and then enters a low-temperature gas-liquid separation tank, the gas phase enters an expander 13 after being reheated by the cold box 15, the expanded low-temperature gas returns to the cold box 15 to be reheated, and finally enters a natural gas pipe network to be conveyed to a user terminal. The liquid phase is conveyed to the top of the deethanizing rectifying tower 9 through a cryogenic pump and is used as reflux at the top of the deethanizing rectifying tower 9, and the material at the bottom of the deethanizing rectifying tower 9 enters a liquefied gas rectifying tower 18.

The cold energy of gas phase condensation is provided by a pre-cooling unit and an expansion unit. The cold energy of gas phase condensation is provided by two groups of refrigerators, one group is a precooler unit of closed refrigeration cycle, the refrigerant medium is a single medium comprising propane, ammonia, R134a and R22, the cold source of a high temperature section is provided, the refrigeration temperature range is-10 ℃ to-40 ℃, the other group is an expander for refrigeration, the high pressure feed gas is expanded through entropy, the enthalpy is reduced, and the temperature is reduced to-60 ℃ to-90 ℃.

The foregoing is only a preferred embodiment of the present application and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present application and these modifications should also be considered as the protection scope of the present application.

Claims (6)

1. A dry gas low-pressure expansion oilfield associated gas light hydrocarbon recovery system is characterized by comprising a raw gas compressor, a raw gas cooler I, a three-phase separator I, a heavy hydrocarbon pump I, an expansion compressor, a raw gas cooler II, a three-phase separator II, a dehydration drying system, a deethanization rectifying tower reboiler, a low-temperature gas-liquid separator, a heavy hydrocarbon reflux pump, an expander, a pre-refrigeration compressor unit, a cold box, a stable light hydrocarbon tower reboiler, a liquefied gas rectifying tower condenser, a liquefied gas rectifying tower reflux tank, a liquefied gas rectifying tower reflux pump and a liquefied gas rectifying tower reboiler, wherein one end of the raw gas compressor is connected with a raw material inlet pipeline, the other end of the raw gas compressor is connected with a raw gas cooler I, the raw gas cooler I is connected with the three-phase separator I, and a wastewater recovery pipeline, Expansion compressor, heavy hydrocarbon pump are connected, heavy hydrocarbon pump is connected through pipeline and three-phase separator two, expansion compressor passes through the pipeline and connects with feed gas cooler two, feed gas cooler two and three-phase separator two, three-phase separator two still is connected with dehydration drying system, stable light hydrocarbon tower, dehydration drying system passes through the pipeline and connects with the cold box, stable light hydrocarbon tower passes through the pipeline and connects with stable light hydrocarbon tower reboiler, stable light hydrocarbon tower reboiler and stable light hydrocarbon tower are circulation structure each other, stable light hydrocarbon tower passes through the pipeline and still is connected with liquefied gas rectifying column, dehydration drying system pipeline passes the cold box and de-ethane rectifying column is connected, de-ethane rectifying column and de-ethane rectifying column reboiler are circulation structure, de-ethane rectifying column passes through the pipeline and is connected with heavy hydrocarbon reflux pump, heavy hydrocarbon reflux pump and low temperature gas-liquid separator connect, the cold box is further connected with a dry gas recovery pipeline, a pre-cooling compressor unit, an expansion machine and a low-temperature gas-liquid separator, the low-temperature gas-liquid separator penetrates through the cold box through a pipeline and is connected with the expansion machine, the low-temperature gas-liquid separator penetrates through the cold box through a pipeline and is connected with a deethanized rectification tower, the expansion machine penetrates through the cold box through a pipeline and is connected with the dry gas recovery pipeline, the deethanized rectification tower is connected with a liquefied gas rectification tower, a liquefied gas rectification tower and a liquefied gas rectification tower reboiler are of a circulating structure, the liquefied gas rectification tower is further connected with a gas recovery pipeline, a liquefied gas rectification tower reflux pump, a liquefied petroleum gas recovery pipeline and a liquefied gas rectification tower condenser, the liquefied gas rectification tower reflux pump is connected with a liquefied gas rectification tower reflux tank, and the liquefied gas rectification tower reflux tank is connected with the liquefied gas rectification tower condenser.

2. The system for recovering light hydrocarbon from associated gas in dry gas low-pressure expanded oil field according to claim 1, wherein the stable light hydrocarbon tower is a stripping tower, the oil phase enters the top of the stable light hydrocarbon tower as reflux, a reboiler is arranged at the bottom of the tower, the light component is evaporated from the top of the tower by heating, the light component enters a feed gas compressor to be repressurized and enter a three-phase separator II, and the light hydrocarbon at the bottom of the tower enters a liquefied gas rectifying tower.

3. The associated gas light hydrocarbon recovery system of the dry gas low-pressure expansion oil field according to claim 1, characterized in that the liquefied gas rectifying tower is respectively connected with two feed ports, and through rectification, a qualified liquefied gas product is obtained at the tower top, and a light oil, mainly containing C5 and above components, is obtained at the tower bottom, and enters an oil product storage tank or is further processed and processed.

4. The associated gas light hydrocarbon recovery system of the dry gas low-pressure expansion oil field according to claim 1, characterized in that the cold energy of gas phase condensation is provided by two groups of refrigerators, one group is a precooler unit of closed refrigeration cycle, the refrigerant medium is a single medium, including one of propane, ammonia, R134a and R22, which provides a cold source at high temperature section, the refrigeration temperature range is-10 ℃ to-40 ℃, the other group is an expander for refrigeration, the high-pressure feed gas is expanded through entropy, the enthalpy is reduced, the temperature is reduced to-60 ℃ to-90 ℃, a large amount of cold energy is provided for device liquefaction, simultaneously, the work is done for the pressurizing feed gas end, the energy consumption of the pressurizing end is reduced, the investment is saved, the energy consumption is reduced, and the yield of C3 can reach 99%.

5. The system for recycling the light hydrocarbon from the associated gas in the dry gas low-pressure expanded oil field according to claim 1, wherein the cold box is respectively connected with the pre-cooling compressor, the expander and the low-temperature gas-liquid separation tank through pipelines, the pre-cooling compressor is further connected with the pre-cooling compressor gas-liquid separation tank and a pre-cooling compressor outlet cooler, the pre-cooling compressor outlet cooler is connected with the pre-cooling compressor gas-liquid separation tank through a pipeline, and a throttle valve is installed on the pipeline.

6. The dry gas low pressure expansion oilfield associated gas light hydrocarbon recovery system according to claim 1, wherein the expansion compressor and the expander are of a coupling structure, the expander expands through heat insulation, the internal energy is converted into mechanical energy, the expansion compressor converts the mechanical energy into the internal energy through a coupler, the feed gas is pressurized, and energy consumption required by the feed gas pressurization is saved.

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