UA8400U - Control system for technology of treatment of asphalt-tar-paraffin salt deposits of oil wells and oil lines - Google Patents

Abstract

A control system for the technology of treatment of asphalt-tar-paraffin and salt deposits of oil wells and oil lines has a portable mechanized unit for de-waxing, and / or vapor-transformation unit, those are equipped with unit for heating and pump for oil or vapor pump-in, equipped with sensors of pressure and temperature, the control-measuring devices of those are placed at the operator's console. The system has receiver with antenna of the system of global positioning, monitoring system, this is formed with controller with storing unit, analogous, digital or pulse inputs of this one are respectively connected to the outputs of the pressure and temperature indicators, connected to the switches of the heating system torch firing, pump, boiler of the upper equipment and the switchers of the unit and / or the apparatus. The control system has as well information block as a complex of automated working places, one of those is equipped with channel for information support and equipped with respective software.

Description

Description of the invention

The actual useful model refers to systems of thermal removal of asphalt-tar-paraffin and salt 2 deposits (ASPIiSV) by the method of injecting special heated reagents (oil, water, steam), compositions of these reagents into oil wells and oil lines. It can be used to control the quality of execution of technological operations for the removal of ASPIV, as well as to control the operation of vehicles - technological units used to carry out the above-mentioned operations.

In the process of operating oil wells and oil pipelines, there is a need to remove PFOS. One 70 method of solving the problem involves the use of hot oil injected into the crack. The hot oil melts and dissolves the ASPISV and brings them to the surface. For this purpose, a special technological unit of the mobile mechanized deparaffinization type unit (ADPM) is used. The ADPM unit is designed for deparaffinization of wells with hot oil, as well as for the performance of other technological operations that require the supply of liquid under high pressure. 12 A variant of the method of cleaning naphtholine from ASPISV is the supply of additionally superheated steam to the pipeline. In this case, an industrial steam mobile installation (PPU) is used. The PPU unit is designed for deparaffinization of naphthols, as well as for performing other technological operations that require steam treatment under pressure.

The use of these variants of the cleaning method requires the introduction of an effective control system.

The most important indicator of the effectiveness of technological treatments for cleaning wells from

ASPISV with the use of ADPM and/or PPU units is to maintain the temperature of the injected reagent (oil, water, steam) not lower than the melting temperature of ASPISV along the entire length of their probable deposits. Non-observance of these conditions leads to the initialization of the equipment and, as a consequence, to the failure of rod-type deep pumps (SHGN), electric centrifugal pumps (EVN) and to a decrease in the throughput capacity of oil lines.

The main task of a valid useful model is to increase the inter-repair period of oil wells, to increase the recovery from the failure of rod deep pumps and electric centrifugal pumps used in oil production. And as a result, reduction of costs for underground and capital repairs of wells, reduction of downtime of oil wells, as well as reduction of costs for the purchase of new pumping equipment (SHGN, EVN). at

ADPM and PPU units, in the part necessary for the presented utility model, have a similar AV design (1 prototype). They are equipped with a heating system that heats reagents (oil, water) and supplies them with the help of a pump through pipelines under pressure into the well or into the oil discharge line. The temperature M of the sales liquid is monitored using sensors installed in the corresponding technological lines. with

The sensors are connected to the control and measuring devices located in the driver's cabin. The pressure of the sales 325 liquid is controlled by manometers installed in the corresponding technological lines.

In the proposed control system, in the technological line of the sales fluid of ADPM and/or PPU, an "OgyskK" pressure sensor of the RMRZ17 type and a temperature sensor of the "Eteggop" series 644Н with a temperature range from minus 02С to 2002С for ADPM and from minus 502С to 3502С are additionally installed. PPU, signals from which are sent to the controller. The controller also receives a signal from the Global Positioning System (GPS) antenna. This 70 allows to correlate the recorded signals in space and time. The controller also receives a signal from the ignition switch of the heating torch and the ignition lock of the units. "z The controller is made in a durable metal case measuring 200x200x50mm, has a cable input, a four-digit LED digital indicator and a card slot for a MiyiMediasSaga type flash card.

The modified controller additionally includes a radio device for receiving and transmitting information (Vineifoiy). because 15 The controller has 8 analog, 2 digital and 2 pulse inputs.

A feature of well deparaffinization operations is the large consumption of fuel and petroleum products. t. Non-compliance with the temperature and volume characteristics of the reagent leads to downtime of oil wells, as well as unreasonable excess consumption of fuel and oil products.

The system is intended for control and registration of the main parameters of the aggregates with the issuance of 62 50 results to the workplaces of the management personnel of the Customer and the Contractor.

The set task is weighed as follows. A monitoring system is installed on the unit of the ADPM and/or PPU type, which includes a controller with a memory device, which receives information from the SRB5 antenna, as well as pressure and temperature sensors of the injected reagent, the state of the heating torch ignition switch and the ignition switch unit Collected information about the location of the unit, the time of events and

The performed actions are recorded in the memory device. The moments of turning on the main components of the unit are recorded.

The received data are entered into the database of the information system for further processing. In particular, the compliance of processing parameters with the specified values is analyzed.

The transfer of information from the controller to the information system can be done in different ways. After 60 returns of the unit to the base, the data is transmitted in discrete mode using a removable flash card. It is also possible to organize the recording of information from the radio channel using the Viceyuoi device within a radius of up to 150 meters from the information processing point. The time of receiving daily information does not exceed 2 minutes.

The information system contains a number of automated workplaces (APM). All ATMs are connected and included in the network. One APM is located at the Customer of technological processing - a technologist engineer of NGVU bo (Oil and Gas Production Department), the others - at the Contractor: an engineer of VTV (production and technical department), a dispatcher for processing transport way sheets of the Tamponage Department (TU).

One of the many possible variants of the implementation of the control system according to the proposed useful model is shown in the drawings of Fig.1.

The system includes the following components - Equipment of the unit, which includes: - a controller with a built-in ZROO-receiver, a memory module on a flash card and a Viceyooy radio exchange module. - СРрБ5 - antenna, - memory card, 70 - temperature and pressure sensors of the reagent pumped into the well, - Information capture point, which includes: - a reading controller device for capturing data from a flash card, - Vieyooy radio exchange module, - software for reading accumulated information and recording it in the system database. - Automated workplaces (AWP) of system users: - AWP of a technologist of the National University of Technology, - AWP of an engineer of VTV, - AWP of a dispatcher for processing travel sheets of TU.

In the process of moving the unit during the production of technological operations, its speed and coordinates are recorded in the memory card. When processing the well, in addition to the location of the unit, the readings of the sensors on the temperature and pressure of the injected reagents, as well as the state of the tumblers and sensors of the unit are recorded. Recorded parameters are recorded on the memory card once every 5 seconds. The amount of memory of the flash card allows you to accumulate information for 14 working days.

Periodically (as a rule, once a day) the memory card is presented at the information collection point. It is inserted into the reading device. Special software reads data from it. If the controller is equipped with a Winpayfoy radio module, when the unit is returned to the garage, the accumulated information is read automatically. t

Accumulated information about the operation of the unit is entered into the database. Arms of users refer to the database and form informative and analytical information available to users.

Based on the data of the controller, the calculation and analytical module of the system does: o z o - Planning and calculation of the characteristics of the movement of the unit: - formation of the planned route of movement of the unit and technological processing; o - formation of the actual route of movement of the unit; "E - time in motion; - parking time; co - recording of ignition on/off events, availability of communication with the satellite, movement/parking. - Formation of the protocol of operation of the upper equipment: - recording of the events of turning on/off the toggle switch, lighting the heating torch, turning on/off the pump, turning on/off the cauldron; - construction of a graph of changes in the temperature of the injected reagent over time; C - construction of a graph of changes in the pressure of the injected reagent over time. c - Calculation of the performance characteristics of the unit's upper equipment on wells: - pump operation time; ;" - working time of the cauldron; - cold oil pumping time; - the time of pumping oil heated to the specified temperature.

Go! During the 14 months of operation of the control system, the following were found: - numerous deviations of processing technological parameters, o - the need to revise fuel consumption standards for processing, o - dependence of fuel consumption standards on weather and climatic conditions, - optimization of processing temperature regimes for various deposits was carried out. c The processes, conditions and parameters of well cleaning and the corresponding equipment are optimized. The inter-repair period of the oil wells of the "Belorusnafta" production association system has been increased.

Increased earnings for the failure of rod deep pumps and electric centrifugal pumps used in oil production. Costs for underground and capital repairs of wells have been reduced.

Gan Reduced downtime of oil wells, reduced costs for the purchase of new pumping equipment (ShGN,

EVN).

Sources of information 1. Unit ADPM, (BADPM-12/150) 49891-0000010 documentation - TO 1IZ, 765/00/00/000 TO 1996. 2. The unit PPUA-1600/100, documentation - RZ 1999. 60 3. KO 2169752 C2, 27.06.2001. 4. KO 2164596 C1, 23.03.2001. 5. KO 2137796 C1, September 20, 1999, 6. KO 2117135 C1, August 10, 1998. 7. KU 2105866 C1, 27.02.1998. b5 c0----.-. Unit ADIM or PPU c ! Indication in ! : cabins and Y : Y !

H turnpike | : ! 1 "thermometer" indicator

I on the panel: "instruments" manometer: it i !: SPre-antenna ; i Controller Sensors i ! I t sensor ! ' M lemperature: '

And "Etethopo!"

NN Indicator ' 1 | temperature and pressure switch, "Olyu"!

Collection point A Arasitans knromany ek, , :

Reader 1. device hart lis stgutA; memory or the data exchange database

ARM Lispetchsa TU

Fig. 1 that 2

Claims (2)

The formula of the invention 1. The system of control of the processing technology of asphalt-resin-paraffin and salt deposits of oil "2 wells and oil lines, containing a unit for deparaffinization mobile mechanized and/or a steam conversion unit, equipped with a heating device and a pump for pumping oil or steam, equipped with pressure and temperature sensors, control the measuring devices of which are output to the operator's console, which is distinguished by the fact that it contains a receiver with a global positioning system antenna, a co-monitoring system formed by a controller with a memory device, whose analog, digital or pulse inputs are respectively connected to the outputs of pressure sensors and temperatures, connected to the torch ignition switches of the heating system, the pump, the boiler of the upper equipment and to the switches of the unit and/or installation, while the antenna of the global positioning system is connected to the input of the controller, the control system also contains an "information block in the form of a complex of automated working x places, one of which is equipped with an information input channel and equipped with the appropriate software. 2. The control system for claim 1, which differs in that the information input channel is made on a flash card. c 3. The control system for claim 1, which differs in that the information input channel is made as a radio channel. ;" "Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (ee) Cheka" («c) ( 42) So 60 b5