RU2753290C1 - Method and system for combating asphalt-resin-paraffin and/or gas hydrate deposits in oil and gas wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: inventions group relates to the oil and gas industry and can be used in oil or gas production for thermal regulation of the produced fluid in order to combat asphalt-resin-paraffin and/or gas hydrate deposits in wells. While implementing the method, a hollow tubular loop, closed to a heat carrier source, is lowered directly into the well to the design depth, mainly below the beginning of the asphalt-resin-paraffin and/or gas hydrate deposits. The heat carrier from the tank by means of a pump under pressure from 0.1 MPa to 8 MPa is fed into the heat exchanger, which ensures the change in the temperature of the energy carrier to the specified temperature from -60°C to +200°C. The circulation of the heated coolant is maintained in a tubular loop under pressure while the well is operating until the temperature of the produced fluid along the length of the well is as close as possible to the isothermal flow, not lower than the melting temperature of asphalt-resin-paraffin and/or gas-hydrate deposits. The hollow tubular loop in the section of the coolant outlet from the source contains a pump with a drive and a frequency regulator, as well as a heat exchanger, which provides heating of the coolant to a predetermined temperature.

EFFECT: efficiency of heat transfer is increased, energy consumption is reduced.

2 cl, 2 dwg

Description

The group of inventions relates to the oil and gas industry and can be used in oil or gas production for temperature control of the produced fluid in order to combat asphalt-resin-paraffin and / or gas hydrate deposits in wells.

According to the patent RU 2574743, a system is known for supplying thermal energy to a horizontal wellbore located in an underground formation, through a vertical channel connected to it, containing
a surface-mounted heater designed to heat the heat transfer medium to a temperature in the range from a temperature in excess of 700 ° F (370 ° C) to a temperature of 1150 ° F (620 ° C),
a steam chamber separated by packers located in a position inside the horizontal wellbore and containing a heat exchanger,
a system with a heat transfer medium loop containing concentric columns for a flow of a heated heat transfer medium, a cooled heat transfer medium and feed water, wherein the inner first column and the second column of concentric columns connect the heater to the heat exchanger to supply the heated heat transfer medium through the wellbores to the heat exchanger and return the cooled heat transfer medium from the heat exchanger to the heater, and a feed water supply system connected to the third column of concentric columns for supplying feed water from the surface to the vertical channel and to the steam chamber, while the heat exchanger has a pipe for transferring heat from the heated heat transfer medium to the feed water for generating steam in steam chamber, and to cause heating of the underground area using thermal energy added by steam from the steam chamber.

The disadvantages of the known system are: the formation is heated to increase oil recovery, while the problems of fluid cooling during lifting in the production well remain unresolved, the complexity of the design and the complexity of operation, high temperature to combat ARPD: the temperature of ARPD precipitation in the wellbore is no more than 20-40 ° С depending on the pressure and composition of the produced fluid.

The most structurally close to the claimed technical solution is a device known from the patent RU 24853 for heating pipes and fittings at the wellhead, containing an electric heater placed in a liquid poured into a closed container with fittings mounted above and below, and means for connecting the heater to the electrical network, where a flexible hose is put on the fittings at both ends. In this case, the hose is made with metal inserts so that it can be wound onto pipes or fittings.

The known device and the method of use presented in its description are intended for heating pipes and fittings on the surface of a well.

The disadvantage of the known device and method of its application is inefficiency when used to combat asphalt-resin-paraffin and / or gas hydrate deposits in the in-pipe space of oil and gas wells, including deep ones, due to several factors: the impossibility of using the device in the downhole space due to the absence of emergency circuit discharge systems in the well; lack of a system for sealing the circuit and downhole fittings; low heat transfer efficiency: in the device, heat transfer from the coolant goes through a complex group of thermal resistances of both the device itself and the heated fittings and pipelines, low efficiency due to only one method of heating the coolant in the tank has high energy costs for heating the coolant directly in the tank, in particular when large volume of this container.

The objective of the claimed group of inventions is to create a method adapted to combat asphalt-resin-paraffin and / or gas hydrate deposits in deep oil and gas wells, using a closed cycle of coolant circulation, where heat transfer between the energy carrier and the heated object occurs through a minimum amount of thermal resistance, and the creation of a system adapted to pumping large volumes of coolant under pressure at a low level of energy consumption for heating it.

The problem is solved by the fact that when implementing a method for combating asphalt-resin-paraffin and / or gas hydrate deposits in oil and gas wells, including the use of a hollow tubular loop closed to a heat carrier source, according to the invention, a hollow tubular loop closed to a heat carrier source is lowered directly into the well to the design depth, mainly below the beginning of asphalt-resin-paraffin and / or gas-hydrate deposits, the coolant from the tank by means of a pump under pressure from 0.1 MPa to 8 MPa is fed into the heat exchanger, which provides a change in the temperature of the coolant to the specified temperature from minus 60 to + 200 ° C, while the circulation of the heated heat carrier is maintained in a tubular circuit under pressure while the well is operating until the temperature of the produced fluid along the well is reached, as close as possible to the isothermal flow, not lower than the melting temperature of asphalt-resin-paraffin and / or gas hydrate deposits.

The problem is solved by the fact that in the system for combating asphalt-resin-paraffin and / or gas hydrate deposits in oil and gas wells, containing a hollow tubular loop closed to the heat carrier source, according to the invention, the tubular loop at the outlet of the heat carrier from the heat carrier contains a pump with a drive and a frequency regulator , as well as a heat exchanger that provides heating of the coolant to a predetermined temperature, a closed tubular circuit is equipped with shut-off and valve mechanisms.

The use of a hollow tubular loop directly in the well minimizes the amount of thermal resistances during the transfer of heat from the heated coolant to the heating object, limiting them by the thermal resistance of heat transfer from the coolant to the wall of the tubular circuit, thermal resistance of the thermal conductivity of the wall of the tubular circuit and thermal resistance of heat transfer from the outer wall of the tubular circuit.

The use of a tubular loop with a heated coolant circulating in it directly in the well allows you to effectively prevent and remove asphalt-resin-paraffin and / or gas hydrate deposits, regardless of the well flow rate, fluid composition, sediment concentration, while the method does not depend on the presence of the gas factor and has a high fire and explosion safety. The claimed technical solution makes it possible to increase the efficiency of heat transfer from the heater, since heat transfer is carried out by direct contact of the tubular circuit with the produced fluid. The use of an external heat exchanger for heating the coolant, where the coolant is supplied under pressure, makes it possible to create a system with relatively low energy consumption, since energy is consumed to heat a smaller volume of the coolant. The claimed system takes up less useful space in the well than, for example, heating cables. At the same time, the coolant temperature minus 60 ° C is the lower limit of the operating temperature range during equipment operation in accordance with GOST 15150-69, and the coolant temperature above + 200 ° C is excessive for the task and leads to faster wear of the equipment.

The presence of a pump with a drive and a frequency regulator makes it possible to create the necessary pressure for pumping the coolant along a long tubular circuit, lowered into the well to the design depth, mainly below the beginning of asphalt-resin-paraffin deposits, the presence of an external heat exchanger through which a closed tubular circuit passes, allows heating the coolant outside the source of the coolant, which reduces energy consumption when pumping large volumes of the coolant, the presence of shut-off valve mechanisms allows you to adjust the pressure and shut off the coolant flow. An example of the temperature distribution in the implementation of the method for combating asphalt-resin-paraffin and / or gas hydrate deposits in oil and gas wells is shown in the graph (Fig. 2).

The essence of the claimed group of inventions is illustrated by the diagram:

FIG. 1 shows a schematic diagram of a system for combating asphalt-resin-paraffin and / or gas hydrate deposits in oil and gas wells.

FIG. 2 is a graph illustrating an example of the temperature distribution in the implementation of the method for combating asphalt-resin-wax and / or gas hydrate deposits in oil and gas wells.

The system contains a tubular circuit 1, closed to a heat carrier source 2, a pump with a drive and a frequency controller 3, a heat exchanger 4, pressure and temperature sensors 5.

The tubular loop consists of flexible pipes, or rigid pipes, or a combination thereof, while the tubular loop can be extended by attaching additional pipes depending on the depth of the well. The heating agent heating station is located in a separate compact module and consists of water heating units, a pump that supplies water to the well, pipelines, shut-off valve mechanisms and an operator panel that controls the operation of the station devices. A fluid temperature sensor is installed at the outlet of the well. The operator's console (control cabinet) allows you to control the system parameters (temperature, pressure, water flow), as well as notify about emergency situations. The operator's console works in both manual and automatic modes, and also blocks the system in emergency situations. When working in automatic mode, the presence of a person in the module is not required. Heating is controlled by a thyristor voltage regulator, the pump is controlled by a frequency-controlled drive, which allows for smooth start-up, performance change and emergency stop. The source of the coolant is a tank or other container. The heat exchanger provides heating of the heat transfer fluid to a predetermined temperature or the transformation of the heat transfer fluid into steam. Water, antifreeze or other liquids can be used as a heat carrier. The system is applied as follows: a closed tubular loop is lowered into the well to the design depth, mainly below the beginning of the asphalt-resin-paraffin deposits, while the preheated coolant circulates in a closed tubular loop while the well is operating until the temperature of the produced fluid along the length of the well is as close as possible to the isothermal flow. below the melting point of asphalt-resin-paraffin deposits. The system is a mobile complex and can be installed, for example, on the basis of an all-terrain vehicle.

Claims (2)

1. A method of combating asphalt-resin-paraffin and / or gas hydrate deposits in oil and gas wells, including the use of a hollow tubular loop closed to the heat carrier source, characterized in that the hollow tubular loop closed to the heat carrier source is lowered directly into the well to the design depth, mainly below the beginning asphalt-resin-paraffin and / or gas-hydrate deposits, the coolant from the tank is supplied by means of a pump under pressure from 0.1 MPa to 8 MPa to the heat exchanger, which provides a change in the temperature of the coolant to a predetermined temperature from -60 ° C to + 200 ° C, while the circulation of the heated coolant is maintained in a tubular loop under pressure when the well is in operation until the temperature of the produced fluid along the length of the well is as close as possible to the isothermal flow, not lower than the melting temperature of asphalt-resin-paraffinic and / or gas-hydrate deposits. 2. A system for combating asphalt-resin-paraffin and / or gas hydrate deposits in oil and gas wells, containing a hollow tubular loop closed to a heat carrier source, characterized in that the hollow tubular loop at the outlet of the heat carrier from the heat carrier contains a pump with a drive and a frequency regulator, and a heat exchanger that provides heating of the coolant to a predetermined temperature; a closed tubular loop is equipped with shut-off and valve mechanisms.

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