RU2691245C1 - Downhole measuring device cooling method - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to oil industry, to operation of wells for production of fluid, for control of production from productive horizon, as well as for investigation of wells, invention is intended for cooling of electronic units, which provide operation of telemetric equipment, which collects measurement data on parameters of medium and parameters of submersible electric motor. To elements, operation of which is based on Peltier effect, pre-installed on at least one electronics unit, transmitting electric power through the transformer zero point and the electric motor star, including the alternating voltage source and the submersible unit transformer, through the primary winding of which the signals are filtered, and through the secondary one an independent phase is created, through which the power supply of elements whose operation is based on the Peltier effect, from at least one alternating current source is provided through the rectifier. Electronics unit, on which elements are installed, operation of which is based on Peltier effect, is pre-poured with viscous-flow heat-conducting composition.EFFECT: improving operating efficiency of cooling elements.1 cl, 1 dwg

Description

The invention relates to the field of oil industry, to the operation of wells for the extraction of fluid, to regulate production from the productive horizon, as well as to study wells, designed for cooling electronics units that ensure the functioning of telemetry equipment that collects measurement data on environmental parameters and parameters of a submersible electric motor.

To ensure the trouble-free operation of electronic components of telemetric equipment in conditions with temperatures above 150 ^o C, various methods of cooling are widely used. Significant efficiency and prevalence is characterized by Peltier elements installed in the electronics of downhole measuring devices.

A thermoelectric cooling system is known, which is connected to the housing and is designed to reduce the temperature of an integrated circuit, and the thermoelectric cooling system contains a thermoelectric cooling module having many alternating p-type and n-type semiconductors [Pat. EP2740889, IPC E21B47 / 01. Downhole tool cooling system and method / Salvadori Velu Sophie et al. ; applicants Services Pétroliers Schlumberger; Schlumberger Technology BV; Schlumberger Holdings; Prad Res & Dev Ltd. - Appl. No. EP20120306530; applied 12/6/2012; pub. date 11.06.2014]. The case contains an inert gas that provides the possibility of reducing the electrical erosion of the integrated circuit or thermoelectric cooling system, or both. The system contains a sensor configured to determine the ambient temperature. The system also includes a controller configured to selectively turn on or off the thermoelectric cooling system based on the detected ambient temperature. The controller is configured to maintain a temperature difference of at least 40 ^{° C} between ambient temperature and the temperature of the integrated circuit.

However, the use of inert gas does not provide sufficiently uniform cooling of electronic components. In addition, the operation of a thermoelectric system assumes the consumption of a relatively large amount of energy, which, in the conditions of the need to comply with technical requirements, can serve as a reason for reducing the efficiency of the system in cases of insufficient values of the voltage transmitted from the ground equipment for the operation of the measuring equipment and its cooling system.

Also known is a cooling method provided by a device containing one or more thermoelectric coolers consisting in conducting engagement with at least one of the devices that actively consume energy, as well as an energy diverter that diverts a part of the energy that is not consumed by active energy consuming devices. downhole power generating device, thermoelectric coolers to ensure the operation of the cooler [Pat. US7527101, IPC H01L35 / 00. Cooling apparatus and method / James C. Mayes; applicant Schlumberger Technology Corp. - Appl. No. US10905954; applied January 27, 2005; pub. date 05/05/2009]. The downhole power generating device comprises a turbine generator to convert the hydraulic energy of the drilling fluid pumped through the drill string into electrical energy. The downhole power generating device comprises an alternator. The energy diverter contains a voltage comparator.

The comparator compares the excess voltage supplied to the bus with the reference voltage. When the excess voltage exceeds the reference voltage, the switch is closed to direct the excess energy along the path to the Peltier elements.

The disadvantages of the above method include the following:

- the method assumes the presence of an additional downhole energy source, a turbine generator for converting the hydraulic energy of the drilling fluid, which leads to an increase in the cost of the method, increasing the likelihood of failure and the limited scope of applications;

- the use of an energy divertor with a comparator has a narrow scope and is not characterized by sufficient functionality.

Closest to the claimed invention is an immersion telemetry system [US Pat. RU133197, IPC E21B47 / 12. Submersible telemetry system / Ya. V. Antimirov et al .; applicant Ltd. "Telemechanics Systems". - Z. No. 2013113051/03; declare 03/22/2013; publ. 10.10.2013]. The submersible telemetry system contains a ground unit having a signal converter and connected by a power line and a signal transmission line to a submersible unit also having a signal converter. In the submersible unit of this system, there is additionally placed at least one cooling element based on the Peltier effect, structurally located on the body of the submersible unit and in thermal contact with the board with electronic components located inside the submersible unit. The immersion unit further comprises a power unit for the cooling element based on the Peltier effect.

The supply voltage of the submersible unit passes through the diode protection unit necessary to protect the electronic components included in the submersible unit from the negative half-wave interference voltage, and is fed to the power supply unit of the cooling element based on the Peltier effect, where it decreases to the required electrical parameters of the cooling element based on the Peltier effect, necessary for its operation, and the power supply of the digital part through the RC protection block used to reduce the interference values to safe electronic computers onents entering the immersion unit when overvoltages occur.

The disadvantage of the closest analogue is the insufficiently effective use of energy supplied through the common for the digital part and the Peltier elements. The operation of thermoelectric components assumes the consumption of a relatively large amount of energy, which, in the conditions of the need to comply with technical requirements, can serve as a reason for reducing the efficiency of the cooling elements in cases of insufficient voltage transmitted from ground equipment for the operation of measuring equipment and its cooling devices.

The claimed invention is directed to solving the problem of increasing the efficiency of the cooling elements installed in the electronics unit of the downhole measuring device, based on the Peltier effect, while ensuring uniform technical requirements for the supply voltage of the equipment.

The solution of the problem is determined by the combination of the following essential features.

The cooling method of the downhole measuring device, which contains ground and immersion units, includes the operation of cooling at least one electronics unit of the immersion unit with elements based on the Peltier effect, and involves the transfer of heat to the electronics unit body, after which heat is transferred to the pipe in which the measuring device is immersed, which is cooled by the formation fluid. Elements based on the Peltier effect, pre-installed on at least one electronics unit, are supplied with electrical power through the zero point of the transformer and the star of the electric motor, including the alternating voltage source and the transformer of the submersible unit, through which the primary winding filters the signals and through the secondary they create an independent phase, in which, through a rectifier, electric elements are supplied that are based on the Peltier effect are electrically powered from For the least, a single AC source.

The electronics unit, on which elements are installed, whose operation is based on the Peltier effect, is pre-filled with a viscous heat-conducting compound.

The essence of the proposed technical solution is explained, but not limited, by the graphic material presented in FIG. - diagram of the downhole measuring device, relative to which the method is implemented.

A downhole measuring device consists of ground, 1, and submersible, 2, blocks. The ground unit includes a power source, 3, with an information receiving and processing device, 4, and is connected to the secondary winding of a three-phase transformer, 5.

The ground unit also contains a low-pass filter, 6, installed on the communication line with the secondary winding of a three-phase transformer and configured to protect the system from high voltage, as well as a switching device, 7, configured to change the polarity of the voltage supplied to the line to measure the resistance isolation, associated with a voltage release resistor, 8, proportional to the current of the communication line.

The submersible unit, 2, includes a set of measuring sensors, 9, a voltage stabilizer, 10, connected to the windings of the submersible electric motor 11, through a resistor, 12, and connected to the electronics unit, 13, which is connected to the electronic controlled key, 14, connected to the windings of the electric motor through a resistor, 15. The electronic switch is controlled by the specified electronics unit, 13, while its power, as well as the power of the measuring sensors, is supplied from a voltage stabilizer, 10.

The submersible unit, 2, contains a transformer, 16.

When the supply voltage is applied, the device is actuated. In the submersible unit, 2, the electronics unit, 13, polls a set of measuring sensors, 9, which mainly contains temperature, pressure and vibration sensors. The current data from the sensors are converted into a serial digital code and transmitted to an electronic controlled key, 14. Synchronously with a serial digital code, the electronic key generates signals that pass through the transformer, 16, and the windings of the submersible electric motor, 11, enter the receiving and processing device information, 4, while passing through the low pass filter, 6, installed on the line with the secondary winding of a three-phase transformer, 5, thus providing protection against high voltage.

Also, the hardware-software mode of testing the insulation of the ground unit. According to this mode, a negative polarity voltage is applied to the power line of the submersible unit, which is created by means of a switching device, 7, to change the polarity of the voltage. Next, measure the voltage drop across the resistor, 8, as well as the voltage in the supply line, and then calculate the current passing through the resistor, 8. Based on the obtained values of the current of the resistor and the voltage of the supply line, calculate the insulation resistance.

The electronics unit, 13, is cooled by elements whose work is based on the Peltier effect, 17.

Elements that are based on the Peltier effect, 17, pre-installed on at least one electronics unit, 13, are supplied with electric power through the zero point of the transformer and the star of the electric motor, including the AC voltage source, 18, and the transformer of the submersible unit, 16 through which the primary winding filters the signals, and through the secondary creates an independent phase, through which the rectifier, 19, provides electrical power to elements whose operation is based on the Pel effect rd, from at least one AC source 18.

Thus, on the basis of the device, which is characterized by high noise immunity, a method is implemented that ensures the transmission of electricity through an additional channel to the elements whose operation is based on the Peltier effect, which allows increasing the service life at operating temperature conditions and increasing the efficiency of these elements by ensuring the operation of the downhole measuring device at higher temperatures, which increases the reliability of the entire system, ensures uniform technical requirements th to the supply voltage.

No need to use additional devices (for example, various energy generators) when implementing the method allows the equipment to be used in a more cost-effective way.

In addition, the installation of the electronics unit in a viscous composition (for example, based on low molecular weight silicone rubber) ensures the uniformity of heat transfer processes in the device, which implements the inventive method.

Claims (2)

1. Method of cooling downhole measuring device, which contains ground and immersion units, including the operation of cooling at least one electronics unit of the immersion unit with elements based on the Peltier effect, and involving heat transfer to the electronics unit body, after which heat is transferred to the pipe in which the measuring device is immersed, which is cooled by the formation fluid, characterized in that the pre-installed elements, which work is based on the Peltier effect on at least one electronics unit, electrical power is transmitted through the zero point of the transformer and the star of the electric motor, including an alternating voltage source and a submersible unit transformer, through which the primary winding filters the signals, and an independent phase creates an independent phase through which the rectifier is electrically powered elements based on the Peltier effect from at least one AC source. 2. Cooling method of the downhole measuring device according to claim 1, characterized in that the electronics unit, on which elements are installed, whose operation is based on the Peltier effect, is pre-filled with a viscous heat-conducting composition.

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