RU197848U1 - Device for continuous monitoring of the tightness of the oil product - Google Patents

Abstract

This utility model relates to the field of integrity monitoring of pipelines and other products, and can be used to detect and identify defects in main oil pipelines and oil product pipelines. The device for continuous leak tightness monitoring of an oil product pipeline contains a recording tape installed under the oil product pipe, which includes a recording tape shell that is fixed to the oil pipeline using clamps, and the tape holes through which the oil in the event of a spillage enters the power supply circuit, consisting of parallel-connected resistors and an ammeter, the data from which are transmitted to the transceiver, which sends signals to the control unit in a pulse mode using a wireless communication channel through serial switching with other transceivers, which processes the received signals and informs about the section of the oil product pipeline where depressurization occurred using the display unit, each transceiver has a unique identification number, and the power of the recording tape and transceiver is provided from a power source. The technical result provided by the given set of features is the possibility of continuous monitoring of the tightness of the oil product pipeline, as well as informing the operator at the expense of the display unit about the site of the oil product pipeline where the accident occurred.

Description

This utility model relates to the field of integrity control of pipelines and other products, and can be used to detect and identify defects in main oil pipelines and oil product pipelines.

From the existing level of technology, a method is known (RF Patent No. 2205395 "Method for in-line ultrasonic testing", G01N 29/04, G01N 29/10 - published on 05.27.2003) by passing an inspection projectile inside the pipeline with ultrasonic sensors installed on it, means measuring, processing and storing measurement data, emitting during the passage of probing ultrasonic pulses and receiving reflected ultrasonic pulses corresponding to the indicated probe pulses using ultrasonic sensors, amplifying electric pulses from sensors corresponding to the received ultrasonic pulses, analog-to-digital conversion of the amplitude values of electric pulses , conversion and storage of measurement data. In this case, before receiving the reflected ultrasonic pulses, the signal amplitude from the ultrasonic sensor is measured, the range of analog-to-digital conversion of the amplitude values of the electric pulses corresponding to the received ultrasonic pulses is set as a function of the specified measured signal amplitude.

The in-line ultrasonic inspection method has the disadvantages of:

- the reflected signal depends too much on how the defect is oriented;

- the need for thorough preparation of the surface of the tested product so that there is no air gap between it and the device;

- great difficulties are the control of products of complex shape and small size.

A utility model is known (RF Patent No. 120605 "Design of a waterproofing coating of oil trunk pipelines, providing control of its integrity", B32B 11/04, B32B 11/00, C09D 195/00 - published on 09/27/2012), providing control of the integrity of the design of waterproofing coating trunk oil pipelines, consisting of a bitumen-polymer primer, a polymer-bitumen tape, a sticky polymer wrapper. Moreover, it additionally contains a pre-deposited layer of bitumen-polymer primer and fiberglass mesh with woven insulated single-core wires that are switched section by section, at the beginning and end of each pipe, through terminal-crimping rings located at a distance of at least 300 mm from the pipe edges, in uniform lines connected through a distribution block with an OTDR with software such as RI-10M1, connected to a power and data transmission unit and interfaced with a data transmission channel.

The design of the waterproofing coating of trunk oil pipelines, providing control of its integrity, has disadvantages:

- the difficulty of installing a known waterproofing coating on a pipeline with a heat-insulating or hardening coating due to its increased diameter;

- the high cost of the reflectometer, as well as its maintenance.

A utility model is known (RF Patent No. 158112 “Pipeline containment with the ability to control its integrity”, F17D 5/06, G01M 3/00 - published on 12/20/2015), characterized in that it consists of sections of the containment installed with a gap on the pipeline with filling the space between the section and the pipeline with filler, in each of the sections on the inner side there are grooves with extended conductors placed in them, the ends of which form with the contact terminals of the switching rings located in the end parts of the protective sheath, a quick-mounted connection, and the switching rings two adjacent sections of the protective sheath are interconnected by means of an intersectional jumper, and the switching ring of at least one of the outermost sections of the protective sheath is connected through a distribution block with an OTDR connected to the power supply and data transmission unit and connected to the data transmission channel, while the extended conductors are made with maybe the ability to commutate by means of commutating rings with intersectional jumpers into a single line for monitoring the integrity of the protective shell, interfaced with the data transmission channel.

The protective shell of the pipeline with the ability to control its integrity has disadvantages:

- relatively low accuracy of measurements, due to the high error of the reflectometer;

- the high cost of equipment (reflectometer), as well as its maintenance (calibration);

- the need to attract a qualified operator, since there is considerable difficulty in reading reflectograms.

The task to which the claimed utility model is directed is to provide the possibility of obtaining timely and continuous information on the tightness of the oil product pipeline with high accuracy in determining the location of a possible accident.

This task is achieved due to the fact that the device for continuous monitoring of the tightness of the oil product pipeline contains a recording tape installed under the oil product pipe, including a shell of the recording tape, which is attached to the oil product pipe with clamps, and tape holes through which the oil product in case of spillage enters the electric circuit power supply, consisting of parallel-connected resistors and an ammeter, the data from which are transmitted to the transceiver, which sends signals to the control unit in a pulsed mode using a wireless communication channel through serial switching with other transceivers, which processes the received signals and informs about the section of the oil product pipeline where depressurization using the display unit, each transceiver having a unique identification number, and the power of the recording tape and transceiver is provided from a power source.

The technical result provided by the given set of features is the possibility of continuous monitoring of the tightness of the oil product pipeline, as well as informing the operator at the expense of the display unit about the site of the oil product pipeline where the accident occurred.

The other known technical solutions for a similar purpose with a similar set of essential features when conducting a search in the scientific and technical literature and patent documentation were not found by the applicant. Therefore, the applicant believes that the claimed device for continuous monitoring of the tightness of the oil product pipeline meets the criterion of "novelty." A device for continuously monitoring the integrity of an oil product pipeline can be manufactured using known equipment and used in oil production, oil refining and other industries where it is necessary to conduct operational and continuous monitoring of the integrity of an oil product pipeline. Therefore, it meets the criterion of "industrial applicability".

The essence of the utility model is illustrated by diagrams. In FIG. 1 shows a General view of the proposed device for continuous monitoring of the tightness of the oil pipeline; in FIG. 2 is a general view of a recording tape.

A device for continuous monitoring of the tightness of an oil product pipeline consists of an oil product pipe 1, recording tape 2, transceivers 3, sheaths of recording tape 4, tape holes 5, resistor 6, ammeter 7, power supply 8, electric power circuit 9, control unit 10, indicating unit 11, clamps 12 for mounting the recording tape, as well as the power terminal 13.

The device for continuous monitoring of the tightness of the oil product pipeline works as follows: during depressurization of the oil product pipe 1, which consists of separate sections (pipe sections), which can be caused by mechanical damage, corrosion processes and a number of other reasons, the oil product pumped through it spills under gravity, passing through the openings 5 of the shell of the recording tape 4, it enters the electrical supply circuit 9 of the recording tape 2 installed under the oil pipe 1 and secured to it with clamps 12. After the oil product enters the elements of the electric circuit 9, consisting of resistors 6 connected in parallel, it closes , which entails a change in the readings of the ammeter 7 included in the electric power supply circuit 9, the data from which are continuously transmitted to the transceiver 3, which, using a wireless communication channel, transmits signals to the control unit in a pulsed mode I am 10 through serial switching with other transceivers. The control unit 10 processes the received data and subsequently, by the identification number of the transceiver 3, displays information on the display unit 11 about the section of the oil product pipeline 1 where the accident occurred. Moreover, the power of the recording tape 2 and the transceiver 3 is provided from a power source 8.

Thus, the use of a device for continuous monitoring of the tightness of the oil pipeline will allow you to quickly and continuously monitor the tightness of the oil pipeline.

Claims (1)

A device for continuously monitoring the tightness of an oil product pipeline, characterized in that it contains a recording tape installed under the oil product pipe, including a recording tape shell that is fixed to the oil product pipe using clamps, and tape holes through which the oil product, in the event of spillage, enters an electrical power circuit consisting of from parallel-connected resistors and an ammeter, the data from which are transmitted to the transceiver, which sends signals to the control unit in a pulsed mode using a wireless communication channel through serial switching with other transceivers, which processes the received signals and informs about the section of the oil product pipeline where the depressurization occurred using display unit, each transceiver has a unique identification number, and the power of the recording tape and transceiver is provided from a power source.

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