RU2740889C1 - Modular system for collection and preparation of downhole products - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to oil and gas industry, in particular, to performance of works on oil gathering and treatment in field conditions at new deposits, can be used at early commissioning of deposits and provides for the possibility of using heat generated during thermal neutralization of associated petroleum gas and waste water during well product preparation. Modular complex for collection and preparation of downhole products comprises a module for degassing and dehydrating well products, which includes a line for receiving raw material with a heat exchanger installed on it for heating input raw material and separation devices associated with gas discharge line and with buffer tank on waste water discharge line, and module for utilization of associated petroleum gas and waste water in the form of installation for their thermal decontamination, equipped with heat exchange element, which uses as primary heat carrier flue gases formed during combustion in gas burners of associated petroleum gas. Secondary heat carrier inlet in heat exchange element is connected to waste water discharge line from buffer tank, and outlet of secondary heat carrier is connected to input to heat exchanger for heating of input raw material, wherein heat carrier output from heat exchanger for input raw material heating is connected with waste water evaporation chamber of thermal decontamination unit.

EFFECT: complex provides the possibility of useful utilization of heat of associated petroleum gas and can be used at the appropriate feasibility study at the initial stage of oil deposits development.

4 cl, 3 dwg

Description

The invention relates to the oil and gas industry, in particular to carrying out work on the collection and preparation of oil in the field at new fields, and can be used for early putting of fields into operation.

A known mobile complex for ensuring year-round research of oil and gas wells, consisting of functional mobile modules (skids mounted on the chassis), interconnected by means of inter-unit technological lines, which provides a module for the disposal of products (oil) - a flare unit with smokeless utilization, while the module the oil storage tank is connected by a separated oil supply line to the flare control module.

This unit receives well production, its heating, separation, temporary storage of crude oil, offloading of separated crude oil to autoboilers, or subsequent disposal of unclaimed crude oil by its smokeless combustion in a flare unit using additional equipment (air compressor) during the period of scheduled work. for equipment maintenance and during the period of inability to export products from the territory of the field. (Patent RU 2616038, published 12.04.2017).

In this solution, the flare management module consists of a combined flare unit for gas recovery and oil recovery. Since the planned flaring of oil is not provided for by any regulatory document in the field of oil production, this solution is almost impossible to use. In addition, this complex does not provide for thermal treatment of waste water.

Known horizontal flare installation, at the entrance of which, during the combustion of associated petroleum gas, the separated waste (formation) water is supplied, where it is subjected to thermal neutralization (evaporation) (Horizontal flare installation of JSC "Uralneftehimmash" www.uralneftehimmash.ru).

In this installation, the evaporation of water begins directly in the flame of the torch, therefore, for its implementation, it is required to create a high excess pressure of the flow of the combusted gas, and, accordingly, the water itself.

The closest to the claimed is a modular complex for the collection and preparation of well products, containing functional movable modules (blocks), interconnected by inter-block technological lines - pipelines, in which for the disposal of gas and waste water there are lines for removing gas from separators (degassers) and water from a water sump connected to the inlet of the flare unit. This modular complex contains a module for degassing and dehydration of well products, including a feed intake line with a heat exchanger installed on it for heating the input feedstock and separation devices associated with a gas outlet line and a buffer tank on the wastewater discharge line, as well as a module for utilization of associated petroleum gas and waste water in the form of a flare unit for thermal neutralization of associated gas and waste (formation water) separated in the process of oil separation and treatment. For thermal neutralization, waste (formation) water is supplied to the inlet of the flare unit. (Patent for PM RU 13910, published 10.06.2000)

The disadvantage of this complex is that it does not use the useful heat generated during thermal neutralization of associated gas and waste water.

The problem to be solved by the claimed invention is to provide the possibility of using in the process of preparation of borehole products of heat generated during thermal neutralization of associated petroleum gas and waste water.

The problem is solved by the fact that in a modular complex for the collection and preparation of well products, containing a module for degassing and dehydration of well products, including a feed intake line with a heat exchanger installed on it for heating the input feedstock and separation devices connected to a gas outlet line and a buffer tank on waste water discharge lines, as well as a module for utilization of associated petroleum gas and waste water in the form of an installation for their thermal neutralization with gas burners and a waste water evaporation chamber, according to the invention, the thermal neutralization installation is equipped with a heat exchange element that uses flue gases as a primary heat carrier combustion in gas burners of associated petroleum gas, and the inlet of the secondary coolant is connected to the wastewater discharge line from the buffer tank, and the outlet of the secondary coolant is connected to the inlet to the heat exchanger for heating the input raw material, while the outlet of this coolant from the heat The exchanger for heating the input raw material is connected to the waste water evaporation chamber of the thermal treatment apparatus.

In addition, the heat exchange element of the thermal neutralization unit can be made in the form of a tubular heat exchanger installed in the wastewater evaporation chamber, or in the form of a heat exchange chamber enclosing the wastewater evaporation chamber, or it can be made remote, connected to the evaporation chamber by inlet and outlet lines flue gases and at the same time equipped with a device for circulating flue gases.

Thus, before evaporation, oilfield waste water is heated by the heat of flue gases generated in the thermal treatment plant during the combustion of associated petroleum gas, and is used as a primary heat carrier for heating the input raw material (well production). This solution makes it possible to ensure the operation of a modular complex for gathering and preparation of well products at an early stage of oil field exploitation in the absence of developed power supply systems.

Also, due to the heating of waste water before its evaporation in the thermal neutralization apparatus, the evaporation time is reduced, and, therefore, the dimensions of both the evaporation chamber itself and the thermal neutralization apparatus as a whole decrease, which significantly improves the transportability of this module.

The invention is illustrated graphically, where FIG. 1-3 show the block diagrams of the proposed complex for gathering and preparation of well products with various versions of the heat exchange device. Thus, in FIG. 1 heat exchanger is located directly inside the evaporation chamber of the thermal treatment plant; in fig. 2 the heat exchange device is made in the form of a chamber located around the evaporation chamber of the thermal neutralization unit; in fig. 3. The heat exchanger is external.

The mobile complex for gathering and preparation of well products contains a module (I) for degassing and dehydrating well products, including a feed receiving line 1, with a heat exchanger 2 installed on it for heating the input feedstock, connected to a gas pre-selection device 3 and an oil and gas separator-water separator 4. Preliminary gas sampling 3 is connected by a gas outlet line 5 with a gas separator 6 and a gas outlet line 7 with an oil and gas separator-water separator 4, which is connected to a gas separator 6 by a gas outlet line 8, an oil outlet line 9 is connected to an end separator 10 and a waste water outlet line 11 is connected to a buffer with a capacity of 12 waste water. The gas separator 6 is connected by a condensate drain line 13 to the waste water drain line 11 from the oil and gas separator-water separator 4, and the end separator 10 is connected to the commercial oil discharge line 14. Module (I) also contains a demulsifier feed line 15 from the demulsifier metering unit 16 to the raw material receiving line 1.

Module (II) utilization and thermal neutralization of associated gas and water contains a thermal neutralization unit 17 with gas burners 18, and a waste water evaporation chamber 19, equipped with a heat exchange element 20 using flue gases as a primary heat carrier formed during the combustion of associated gas in gas burners 18, and as a secondary heat carrier waste water accumulating in the buffer tank 12. In the heat exchange element 20, the secondary heat carrier inlet is connected by line 21 to the buffer tank 12, and the secondary heat carrier outlet is connected by line 22 to the inlet to the heat exchanger 2 for heating the input raw material ( in relation to the input raw material in the heat exchanger 2, this heat carrier is already the primary heat carrier). The outlet of this coolant from the heat exchanger 2 is connected by line 23 with the waste water evaporation chamber 19 of the installation 17. The line 21 for removing waste water from the buffer tank 12 is connected to the line 24 for receiving make-up water from an external source. Installation 17 thermal neutralization is also connected to the line 25 of the gas outlet from the gas separator 6 and with the line 26 of the gas outlet from the end separator 10. The line 21 of water removal from the buffer tank 12, the line 11 of water removal from the oil and gas separator-water separator 4 and line 9 of oil removal are equipped with valves flow regulators, and the lines 25 and 26 of the gas outlet and the line 14 of the outlet of commercial oil are equipped with flow meters.

The heat exchange element 20 can have various versions and be located directly inside the waste water evaporation chamber 19 of the installation 17 (Fig. 1), or outside the waste water evaporation chamber 19 (Fig. 2), or the heat exchange element 20 can be made remote (Fig. 3). In the latter case, the heat exchange element 20 is connected to the waste water evaporation chamber 19 by a flue gas inlet line 27 and a flue gas outlet line 28. To ensure the circulation of flue gases through the heating chamber, a gas blower (smoke exhauster) installed on line 28 (not shown in the drawing) can be used.

The work of a modular complex for collecting and preparing well products is carried out as follows.

The water-gas-oil mixture (input raw material) from the production wells enters the module (I) into the line 1 for receiving raw materials, into which a demulsifier from the dosing unit 16 is introduced through line 15. , and enters the gas pre-selection device 3, which is in the configuration with the oil and gas separator-water separator 4. The main amount of associated petroleum gas separated in the gas pre-selection device 3 is sent through line 5 to the gas separator 6, or through line 7 to the gas space of the oil and gas separator - water separator 4, and the partially degassed water-oil mixture from the gas pre-selection device 3 enters the oil and gas separator-water separator 4. In the oil and gas separator-water separator 4, the raw material is separated into gas, oil and water. Gas through the line 8 of the gas outlet is directed to the line 5 of the gas outlet from the gas pre-selection device 3 and then to the gas separator 6, the oil through the line 9 of the oil outlet is directed to the end separator 10, the waste water through the line 11 of the water outlet is directed to the buffer tank 12, which performs function of waste water purification from suspended oil products. Commercial oil from the end separator 10 through line 14 is sent to the consumer (directly to the autoboilers, or to the storage and loading module - not shown in the figure). Gas from the gas separator 6 through line 25 and gas from the end separator 10 through the gas outlet line 26 is fed to the gas burners 18 of the thermal treatment unit 17. Waste water from the buffer tank 12 is directed through the water drain line 21 for preheating to the heat exchange element 20, and after heating through the line 22 it is directed to the shell space of the heat exchanger 2, in which it heats the input raw material, and then leaves the heat exchanger 2 and through the line 23 through the nozzles 29 it enters the evaporation chamber 19 of waste water from the installation 17 of thermal treatment. In the event of a shortage of water separated from oil (during the production of low-water-cut oil), the additional amount of water required to power the thermal neutralization apparatus and heat exchanger is supplied from an external source through line 24.

As an example, the operation of the proposed mobile complex on an oil and gas well was simulated in the following mode:

- consumption of liquid (water-oil mixture) - 4227 kg / h;

- water consumption - 2087 kg / h;

- gas consumption - 166.5 nm ³ / h;

- temperature at the entrance to the mobile complex - 21 ° С;

- required heating temperature of raw materials - 50 ° С;

- pressure at the entrance to the mobile complex - 1.0 MPa.

Calculations have shown that with the complete combustion of the specified amount of gas in the thermal neutralization unit 17, the waste water supplied from the buffer tank 12 through line 21 can be heated to 165 ° C with the formation of a steam-water mixture, the amount of which is sufficient to heat the input raw material in the heat exchanger 2 to 55 ° C. The design temperature of the flue gases leaving the thermal treatment unit 17 is 633 ° C. Calculations show that when flue gases are mixed and preheated water (steam-water mixture) entering the evaporation chamber, the water completely evaporates and is carried away by the flue gas flow.

The proposed modular complex enables the beneficial use of the heat of associated petroleum gas and, according to the regulatory documents [GOST R 58367-2019, p. 6.7.1.5], can be used with an appropriate feasibility study at the initial stage of oil field development.

Claims (4)

1. A modular complex for collecting and preparing well products, containing a module for degassing and dehydrating well products, including a feed intake line with a heat exchanger installed on it for heating the input feedstock and separation devices associated with a gas outlet line and a buffer tank on the wastewater discharge line , as well as a module for utilization of associated petroleum gas and waste water in the form of an installation for their thermal neutralization with gas burners and a waste water evaporation chamber, characterized in that the thermal neutralization installation is equipped with a heat exchange element that uses flue gases generated during combustion in gas burners of associated petroleum gas, and the inlet of the secondary heat carrier is connected to the wastewater discharge line from the buffer tank, and the outlet of the secondary heat carrier is connected to the inlet to the heat exchanger for heating the input raw material, while the outlet of this heat carrier from the heat exchanger for heating to feedstock is connected to the waste water evaporation chamber of the thermal treatment plant. 2. The modular complex according to claim 1, characterized in that the heat exchange element of the thermal deactivation unit is made in the form of a tubular heat exchanger installed in the waste water evaporation chamber. 3. The modular complex according to claim 1, characterized in that the heat exchange element of the thermal neutralization unit is made in the form of a heat exchange chamber enclosing the waste water evaporation chamber. 4. The modular complex according to claim 1, characterized in that the heat exchange element of the thermal deactivation unit is external, connected to the waste water evaporation chamber by flue gas inlet and outlet lines and is equipped with a device for circulating flue gases.

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