RU2663565C1 - System of constant monitoring of concentration of hydrocarbon vapors of oil and petroleum products in the air of working area during fire and gas hazardous operations - Google Patents

Abstract

FIELD: security facilities.SUBSTANCE: invention relates to industrial safety. System of constant monitoring of concentration of hydrocarbon vapors of oil and petroleum products in the air of the working area during fire and gas hazardous operations includes a mobile gas analyzer, control and management unit and radio command execution unit. Control and management unit comprises a receiving/transmitting unit, light or sound alarms and information processing unit. Mobile gas analyzer includes a measuring unit, information processing unit, reception/transmission unit, audio or light signaling means. Measuring unit contains two sampling channels, each of which includes a measuring channel based on the photoionization measurement principle, and measuring channel made on the basis of the optical absorption principle of measurements in an infrared region of optical spectrum. Radio command execution unit includes a receiving/transmitting unit and a power-off/on unit.EFFECT: extended range of instruments is provided.1 cl, 2 dwg

Description

The invention relates to the field of industrial safety and labor protection, in particular to gas analytical systems designed to detect and measure pre-explosive concentrations of oil vapor and oil products at the facilities of oil pipelines and / or oil pipelines in the production of fire and gas hazardous work.

The prior art system for controlling gas contamination in the annulus and pressure in temporarily sealing devices during repair (fire) work on the underground or above-ground section of the existing main gas pipeline that is turned off and put into repair with gas bleed, consisting of a gas analyzer and pressure gauges, the system additionally equipped with a fire alarm with light and sound alarm, gas sensors and two pressure monitoring units, each of which rykh consists of two pressure control gauges, an overpressure control gauge and an electronic pressure gauge with a digital display, which is connected with both temporary sealing devices and a fire alarm with light and sound alarms, which, in turn, is connected to a gas analyzer, associated with gas detectors located in the process openings for measuring gas contamination in the in-pipe space (patent for utility model RU 108656 U1, publication date 09/20/2011).

The known system provides:

- continuous monitoring of individual parameters (gas contamination in the in-pipe space of the repaired (disconnected) section of the gas pipeline and the magnitude of the working pressure in external temporarily sealing devices) during hazardous work on the hazardous production facility of the linear part of the main gas pipeline that has been put out for repair (with a process stop, respectively);

- detection and immediate notification of personnel about dangerous changes in the in-pipe space to suspend repair (fire) operations, evacuate workers from the danger zone until the causes of the emergency are identified and eliminated.

A disadvantage of the known system is that it cannot be applied at the facilities of main oil pipelines and / or oil product pipelines.

The technical problem solved by the claimed invention is to provide constant monitoring of the concentration of hydrocarbon vapors of oil and oil products in the air of the working area during fire and gas hazardous work.

The technical result achieved during the implementation of the invention is to expand the arsenal of technical means for monitoring the concentration of hydrocarbon vapors of oil and / or oil products, namely, to create a system for constantly monitoring the concentration of hydrocarbon vapors of oil and oil products in the air of the working zone during fire and gas hazardous operations (hereinafter - SPKKPU), designed to detect and measure pre-explosive concentrations of oil vapor and / or oil products at the facilities of main oil pipelines and / or oil product wires during the production of fire and gas hazardous work, providing automatic power off of electrical equipment used in the performance of fire and gas hazardous work, if the concentration of oil vapor and / or oil products exceeds the specified threshold values, which will lead to a reduction / exclusion of industrial injuries to employees associated with ignition of vapors of oil and oil products during fire and gas hazardous operations at the facilities of main oil pipelines and oil products pipelines,

The technical result is achieved due to the fact that the system of constant monitoring of the concentration of hydrocarbon vapors of oil and / or oil products in the air of the working zone during fire and gas hazardous operations includes at least one portable gas analyzer and / or at least one individual gas analyzer, control unit and control associated with the possibility of receiving / transmitting data with the aforementioned gas analyzers, a radio command execution unit associated with the possibility of receiving / transmitting data with the aforementioned a monitoring and control unit, the monitoring and control unit including an information processing unit configured to receive from at least one mobile and / or individual gas analyzer a signal that the concentration of oil and / or oil products has exceeded the specified threshold values and is supplied to the execution unit radio commands of the signal about the excess of the concentration of oil vapor and / or oil products of the specified threshold values, the block of reception / transmission of information, means of light and / or sound signaling; a mobile gas analyzer and / or an individual gas analyzer include a measuring unit, an information processing unit configured to transmit to the monitoring and control unit a signal about an excess of the concentration of oil vapor and / or oil products of predetermined threshold values, an information receiving / transmitting unit, sound and / or or light alarm, while the measuring unit of the mobile gas analyzer includes two sampling channels, each of which includes a measuring channel made with ozhnostyu measurements based on the principle of measuring the photoionization and a measuring channel arranged to measure, based on the principle of optical-absorption measurements in the infrared region of the optical spectrum; the radio command execution unit includes an information receiving / transmitting unit, an electrical equipment power cut-off / power-on unit, configured to turn off the power supply of electrical equipment when receiving a signal from a control and control unit about an excess of the concentration of oil vapor and / or oil products of predetermined threshold values and turning on the power supply of electrical equipment when receiving a signal from the monitoring and control unit to reduce the concentration of oil vapor and / or oil products below a predetermined threshold values.

The invention is illustrated by drawings, in which in FIG. 1 is a schematic diagram of SPKKPU, in FIG. Figure 2 shows the layout of mobile gas analyzers during repair work.

The composition of SPKKPU, the functional diagram of which is presented in FIG. 1, includes mobile gas analyzers (GHGs) 1 and / or individual gas analyzers (GHs) 2, designed to determine the concentration of vapors of oil and oil products at the place of work, a control and control unit (BKU) 3, designed to receive information from GHGs 1 and IG 2 on exceeding the concentration of oil vapors and / or oil products at predetermined threshold values, issuing warning sound and / or light signals in case of exceeding the concentration of oil vapors and / or oil products at predetermined threshold values and issuing a signal on the unit to the radio control execution (BIR) 4 Non explosion-proof electrical disconnection of power supply in case of excess concentrations of oil vapors and / or oil predetermined thresholds.

SPKKPU may include 1 unit of BKU, from 4 to 10 units of GHGs, from 16 to 20 units of IG and 10 units of BIR.

PG 1 is designed for continuous automatic measurement of the content of hydrocarbon vapors of oil and / or oil products in the air of the working area and in the technological cavities of the pipeline with the issuance of light and / or sound signals about the exceeding of the set threshold values for the concentration of hydrocarbon vapors.

GHG 1 provides determination of the vapor content of hydrocarbons of oil and / or oil products in the sample, mg / m ³ (% LEL) of three levels: the threshold level of gas contamination “THRESHOLD 1”, the emergency gas level “THRESHOLD 2” and the maximum emergency gas level “THRESHOLD 3” .

PG 1 includes a housing in which an information processing unit, an information transmitting / receiving unit, a measuring unit containing two sampling channels, buttons for controlling the gas analyzer operating modes, a display for displaying information, an antenna, sound and / or light signaling devices are placed . In each sampling channel of PG 1, there are two measuring channels based on known measurement methods. The measuring channel of the PID, based on the photoionization principle of measurements, and the measuring channel IR, based on the optical absorption principle of measurements in the infrared region of the optical spectrum.

The PID provides a measurement of the content of the determined components in the concentration range from 0 to 5% of the lower concentration limit of flame propagation (hereinafter - LEL), ICD in the range from 0 to 50% LEL (up to 100% LEL for propane).

The principle of the PID is based on the ionization of gases through ultraviolet (UV) radiation and can be implemented using known means and methods.

Gas from the surrounding atmosphere freely penetrates through the fluoroplastic filter membrane (not shown in the drawings) into the cavity of the electrode block (not shown in the drawings), which is limited on one side by a UV lamp window (not shown in the drawings), and on the other hand, by a gas-permeable membrane (filter membrane) (not shown in the drawings), and consists of three electrodes - a cathode, anode and grid electrode (not shown in the drawings). The UV radiation of the lamp ionizes the gas inside the electrode block. Positive and negative ions formed as a result of ionization are separated in an electric field created by the potential difference between the electrodes - the anode and cathode. As a result of ionization of the analyte, an electric current is generated, which is proportional to the concentration of the ionized gas. The PID electrode block, in addition to the anode and cathode, also contains a grid electrode, which reduces the effect of water vapor and other pollutants on the PID readings. The photoionization electric current is converted to voltage, amplified, converted to the mass concentration of the component and displayed on the PG 1 display.

The principle of operation - optical absorption based on the absorption of infrared radiation by the analyzed gas and can be implemented using known means and methods. The degree of absorption of infrared radiation depends on the content of the analyzed component in the gas mixture. Each gas has its own absorption region of infrared radiation, which leads to a high degree of selectivity of this method.

Modulated IR radiation from an infrared lamp of the MIL-82 sensor (not shown in the drawings) passes through the layer of the analyzed sample (not shown in the drawings), is reflected from the sensor mirror (not shown in the drawings), passes through the layer of the analyzed medium again and enters two-channel pyroelectric receiver (not shown in the drawings). One receiver channel is sensitive to the detected component of the sample (working channel), the second channel of the receiver is not sensitive to the detected component of the sample (reference channel). The signals from the working and reference channel of the receiver are converted using the ADC of the sensor microcontroller (not shown in the drawings) into digital form. Further, signals from the receiver using band-pass digital filters (not shown in the drawings) are used to extract signals at the modulation frequency and remove noise, the signals are rectified using a phase-independent rectifier (not shown in the drawings), and using a low-frequency digital filter (not shown in the drawings) the constant component of the signals is allocated. The difference of the received signals is a measure of the content of the determined component in the analyzed sample. Then, a correction from the influence of the ambient temperature is introduced into the obtained value of the difference, and the nominal static characteristics of the sensor conversion are linearized to obtain the value of the measured concentration of the determined component in the analyzed sample in% LEL. On the lower surface of the casing there are legs intended for installation on SG 1 on the ground and or for fastening on the pipeline using a platform with straps (not shown in the drawings).

PG 1 has the ability to install it when working directly on open ground and fasten it to the surface of the pipeline being repaired, while the fastening devices ensure the stability of PG 1 on the surface of the pipeline being repaired while repairing it (including during demagnetization of the pipeline, its displacements and etc.).

PG 1 also includes a built-in rechargeable battery with a voltage of 10 to 17 V (not shown in the drawings).

In addition, the PG 1 includes a sampling device connected to any of the sampling channels, which can be used as a flexible sampling tube with a length of not more than 3 m or a sampling probe. The sampling probe has the ability to connect to any of the inlets of the sampling channel using a flexible sampling tube with a length of not more than 3 m, insert the probe into the cavity of the pipeline through a technological hole with a diameter of 12 mm, and fix it in the hole, which does not interrupt during pipeline repair, which ensures sampling from pipelines from DN 100 to DN 1200.

IG 2 is designed for continuous automatic measurements of the content of oil vapor and / or oil products in the air of the working area with the issuance of light and / or sound signals about exceeding the established threshold values.

IG 2 provides the determination of the content of hydrocarbon vapors of oil and oil products in the sample, mg / m ³ with the output of the measurement results to the display, the alarm of the maximum level of gas contamination when the measured value of the content of the determined component of the alarm threshold “THRESHOLD 1” and the alarm of the emergency level of gas contamination when the measured value of the content of the determined component of the alarm threshold “THRESHOLD 2” is reached.

IG 2 includes a housing in which an information processing unit, an information transmitting / receiving unit, a measuring unit including one PID measuring channel based on the photoionization measurement principle are placed.

BKU 3 is designed to work as part of SPKKPU as a data transmission network, providing:

- a sequential cyclic survey on the level of gas contamination for each of PG 1 and IG 2 included in SPKKPU, with an interval of 5 seconds;

- the issuance of light and / or sound signaling upon receipt of information from one of the steam generator 1 and IG 2 included in SPKKPU about the achievement of the threshold “THRESHOLD 1”, emergency “THRESHOLD 2” and the maximum emergency levels of gas contamination “THRESHOLD 3” ( only for PG 1);

- issuing a signal to BIR 4 to turn off the power supply of non-explosion-proof electrical equipment in accordance with the conditions previously set in the parameters of the control panel with a message on the display.

- issuing a signal to BIR 4 for permission to turn on the power supply of non-explosion-proof electrical equipment when resetting the alarm of the emergency (maximum emergency) gas level;

- issuing signals to PG 1 and IG 2 about the selection of the component to be determined, setting the threshold values "THRESHOLD 1", "THRESHOLD 2" and "THRESHOLD 3" (only for PG 1);

- issuing signals to all GHGs included in SPKKPU about the forced activation of the “THRESHOLD 1”, “THRESHOLD 2” or “THRESHOLD 3” alarms when the corresponding alarm is triggered on any of the SGs 1 or IG 2;

- determining the coordinates of the location of the BKU 3 in the GLONASS positioning system with the issuance of the BKU coordinates on the display.

BKU 3 includes a housing in which an information processing unit, an information reception / transmission unit, a GLONASS positioning unit, a display for displaying information, an internal radio communication antenna, a cellular communication antenna, buttons for controlling the operating modes of the BKU, sound and / or light alarm. BKU 3 also includes a built-in rechargeable battery with a nominal voltage of 10 to 17 V (not shown in the drawings).

Information communication of BKU 3 with other elements (PG 1, IG 2 and BIR 4) is carried out via internal digital communication channels:

- with PG 1 over the air (main) and wired (backup);

- with IG 2 and BIR 4 over the air.

Connection (if necessary) of backup (wired) communication lines between BKU 3 and PG 1 is required:

- in conditions when it is not possible to arrange the control unit 3 and the steam generator 1 relative to each other so as to provide stable communication over the radio channel, for example, when between the control unit 3 and the steam generator 1 there are objects that impede the passage of radio signals (building walls, bulky equipment, heavy rainfall and etc.), or sources of strong radio interference;

- if necessary, guarantee the transfer of data within the SPKKPU regardless of external conditions;

- to ensure the maximum possible operating time of BKU 3 and PG 1 by reducing the power consumption as a result of turning off the transmit / receive unit of PG 1 and reducing the intensity of use of the BKU 3 radio communication unit.

Information communication of BKU 3 with external devices (computer, laptop, tablet, etc.) is carried out via external digital communication channels via USB and a cellular communication channel.

The conclusion of the measurement results for all channels SPKKPU, data on the state of the constituent elements of PG 1, IG 2 and BIR 4 and communication channels is carried out on the display BKU 3 (not shown in the drawings).

BKU 3 has digital communication channels with the following characteristics:

- the internal radio channel (main) for communication of the BKU 3 with PG 1, IG 2 and BIR 4 with a frequency of 2.4 GHz according to the exchange protocol in accordance with the IEEE 802.15.4 standard;

- an internal channel of wire communication (backup) for communication between the BKU 3 and PG 1 using the RS-485 interface using the MODBUS RTU exchange protocol;

- an external channel of wired communication with external devices (computer, laptop, tablet, etc.) using the USB 2.0 interface via MODBUS TCP exchange protocol;

- an external radio channel for communication with external devices via cellular communications of generations 2G and 3G.

The transmission range of information through digital communication channels BKU 3 when operating as part of SPKKPU is at least: between BKU 3 and PG 2 on the main (radio channel) - 300 m (in open space); between BKU 3 and PG 2 on the backup (wired channel) - 250 m; between BKU 3 and IG 2, BIR 4 over a radio channel - 300 m (in open space).

BIR 4 is designed to work as part of SPKKPU as an auxiliary device that turns off / on power supply systems 5 of non-explosion-proof electrical equipment 6 upon receipt of the corresponding signals from BKU 3. In a preferred embodiment of the invention, BIR 4 can be placed on a diesel generator (not shown in the drawings) , and the power of BIR 4 can be carried out from the power circuits of the signal circuits of the diesel generator (main) and from the built-in rechargeable battery (backup) (not shown in the drawings cauldron).

BIR 4 includes a housing in which there is a block for receiving / transmitting information, an indication unit, a relay for disconnecting non-explosion-proof electrical equipment, including one pair of normally closed "dry" contacts and one pair of normally open "dry" contacts (not shown in the drawings). The body of the BIR 4 can be equipped with magnetic mounts for fixing on the metal surface of the casing of the diesel unit (not shown in the drawings).

BIR 4 provides the following functions:

- the issuance of a control signal to the control system of the electric unit to turn off the power supply of non-explosion-proof electrical equipment upon receipt of the corresponding signal from BKU 3;

- the issuance of a control signal to the control system of the electric unit for permission to turn on the power supply of non-explosion-proof electrical equipment upon receipt of the corresponding signal from BKU 3;

BIR 4 has a digital radio channel for communication with BKU 3 with a frequency of 2.4 GHz according to the exchange protocol in accordance with the IEEE 802.15.4 standard.

The work of SPKKPU is as follows.

When monitoring the air at the place of repair of main oil pipelines and / or oil pipelines, PG 1 is installed on the surface of each of the sections of the pipeline 7 being repaired and simultaneously controls the gas contamination inside the pipeline 7 being repaired from DN 100 to DN 1200 through a process hole 8 with a diameter of 12 mm and repair pit 9 at a distance of 0.5 m from the bottom under the installation site (Fig. 2).

Inside the repaired pipeline 7, the concentration of oil vapor and / or oil products of GHG 1 can be determined in two ways. For pipelines 7 to DN 500 at one point in the lower part of the internal cavity of the pipeline 7, and for pipelines from DN 500 to DN 1200 simultaneously at two points in the upper and lower parts of the internal cavity of the pipeline 7. According to the second method, in the middle of the inner cavity of the pipeline 7 The end of the sampling device 10 with a float is placed in the place of sampling. The length of the tube of the sampling device 10 should be such that the sampling hole is located at a distance of 0.5 m from the surface of the bottom of the pit 9 under the installation site of SG 1, while the length of the tube of the sampling device is regulated by folding the excess part of the tube with rings and fixed with a Velcro fastener . IG 2 is attached to the overalls of each of the workers repairing the pipeline (located in a pit or in places where oil / oil product vapors may escape), and controls the gas contamination at the employee’s location.

GHG 1 provides parallel measurements of the concentration of the detected components through two independent sampling channels. The measurement of the concentration of the determined components in each channel is performed using the PID and ICD. The measurement results are displayed on the GHG display 1. Measurement of the concentration of IG 2 is carried out on one sampling channel using the PID.

Sampling of the analyzed samples can be carried out forcibly with the help of the built-in flow drivers:

- from pipelines 7 through a sampling probe 11 included in the set of steam generator 1;

- from pits 9 through a sampling device 10 included in the set of steam generator 1;

- directly from the atmosphere at the installation site of the gas analyzer through a cap that provides protection from precipitation (not shown in the drawings).

The work of IG 2 is carried out in the same way as PG 1.

In case of determination of the threshold level of gas contamination “THRESHOLD 1”, “THRESHOLD 2” or “THRESHOLD” at any SG 1 and IG 2 included in SPKKPU, the corresponding light and / or sound signaling is triggered on PG 1 and information is transmitted via digital communication channels on BKU 3 and all PG 1 and IG 2 included in SPKKPU.

BKU 3, during a cyclic survey of the level of gas pollution for each of SG 1 and IG 2 included in SPKKPU, receives data from PG 1 and / or IG 2, which registered an excess of the level of the maximum level of gas pollution in this case:

- sound and / or light signaling are turned on at BKU 3 and all PG 1 included in SPKKPU;

- through digital communication channels, a radio signal is supplied to all BIR 4 included in SPKKPU, to turn off the power supply of non-explosion-proof electrical equipment, only in the case of an alarm "THRESHOLD 2", "THRESHOLD 3";

- the identification number of PG 1 and / or IG 2, which triggered the alarm, is displayed on the display of the BKU 3;

The “THRESHOLD 1” alarm is automatically turned on when the BCU 3 is received from any PG 1 or IG 2, incoming SPKKPU, the signal on the activation of the “THRESHOLD 1” alarm. The THRESHOLD alarm 2 is automatically turned on when the BCU 3 is received from any SG 1 or IG 2 included in the SPKKPU signaling the THRESHOLD alarm is turned on. The THRESHOLD 3 alarm is turned on automatically when the BCU 3 is received from any SG included in the SPKKPU on the inclusion of the alarm “POROGZ”.

The signaling of the threshold level of gas contamination “THRESHOLD 1” is turned off automatically, provided that all thresholds 1 and IG 2, incoming SPKKPU, receive messages about disabling the alarm “THRESHOLD 1”.

The alarm of the gas level “THRESHOLD 2” is manually disabled by pressing the “RESET” button on the BKU 3 provided that all thresholds 1 and IG 2 included in SPKKPU receive a signal to turn off the “THRESHOLD 2” alarm.

The THRESHOLD 3 alarm is deactivated only manually by pressing the RESET button on the control panel 3 under the condition that the concentration of oil and / or oil product vapor is reduced across all measuring channels of PG 1 included in SPKKPU relative to the threshold of the THRESHOLD alarm. If you save the conditions for turning on the THRESHOLD alarm, when you press the RESET button on the BKU 3, the alarm on the BKU 3 and PG 1 and the signal to turn off the non-explosion-proof electrical equipment do not turn off.

BKU 3 determines the coordinates of its location in the GLONASS satellite navigation system.

BIR 4 receives signals from BKU 3 via a radio channel for permission to enable / disable power supply of non-explosion-proof equipment.

When the BIR 4 power is off, immediately after turning on the power and then until a command is received from BKU 3 to turn off the power supply to non-explosion-proof equipment, a pair of “dry” relay contacts is closed, another pair of “dry” relay contacts are open.

After receiving a signal from BKU 3 to turn off the power supply of non-explosion-proof equipment and then before receiving a signal from BKU 3 to turn on the power supply of non-explosion-proof equipment, one pair of “dry” contacts opens, the other pair of “dry” relay contacts closes.

BIR 4 maintains its current state until a command signal is received from BKU 3 to enable the power supply of non-explosion-proof equipment to be turned on or to turn off the BIR 4 power.

Upon receipt of a signal from BKU 3 to BIR 4 for permission to turn on the power supply of non-explosion-proof equipment, the relay contacts switch.

Claims (4)

A system for continuous monitoring of the concentration of hydrocarbon vapors of oil and oil products in the air of a working zone during fire and gas hazardous operations, which includes at least one mobile gas analyzer and / or at least one individual gas analyzer, a control and management unit associated with the possibility of receiving / transmitting data with the aforementioned gas analyzers, a radio command execution unit associated with the possibility of receiving / transmitting data with the aforementioned monitoring and control unit, the control and management unit includes an information receiving / transmitting unit, light and / or sound signaling means, an information processing unit configured to receive a signal from at least one mobile and / or individual gas analyzer about the concentration of oil vapor and / or oil products being exceeded threshold values and applying to the radio command execution unit a signal that the concentration of oil and / or oil products exceeds the specified threshold values; a mobile gas analyzer and / or an individual gas analyzer include a measuring unit, an information processing unit configured to transmit to the monitoring and control unit a signal about an excess of the concentration of oil vapor and / or oil products of predetermined threshold values, an information receiving / transmitting unit, sound and / or or light alarm, while the measuring unit of the mobile gas analyzer includes two sampling channels, each of which includes a measuring channel made with ozhnostyu measurement based on the photoionization measurement principle, and the measuring channel is configured to measure, based on the principle of optical-absorption measurements in the infrared region of the optical spectrum; the radio command execution unit includes an information receiving / transmitting unit, an electrical equipment power cut-off / power-on unit, configured to turn off the power supply of electrical equipment upon receipt of a signal from the control and control unit that the concentration of oil and / or oil products exceeds the specified threshold values and turns on the power of the equipment when receiving a signal from the monitoring and control unit to reduce the concentration of oil vapor and / or oil products below threshold values.

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