RU2801298C1 - Method for verifying the commercial gas metering system for gas filling dispenser in automatic compressor station gas fillers - Google Patents

Abstract

FIELD: measurement technology.

SUBSTANCE: invention relates to a method for verifying commercial gas metering systems of gas filling dispenser (GFD) in automatic compressor station gas fillers (ACSGF) when filling with compressed natural gas (CNG) mobile gas fillers (MGF) intended for transportation, short-term storage and distribution of gaseous motor fuel (CNG) to consumers using CNG as a motor fuel, for example, gas powered vehicles. The method for verifying the commercial gas metering system installed at the ACSGF GFDs includes gas supply from a source, wherein the gas is supplied through a high-pressure hose to the refuelling unit of a mobile gas fillers with a reference meter unit installed on it. Next, the gas is supplied to the input of the reference meter by opening the valve, the volume of gas entering the MGF is measured, after which the gas is fed through the open valve into the cylinder unit of the MGF, then during the filling process or after it, the readings of the reference meter are compared with the readings of the commercial gas metering system installed on the gas filling dispenser.

EFFECT: reduction of CNG emissions into the atmosphere during verification.

1 cl, 1 dwg

Description

The invention relates to measuring technology, in particular to a method for verifying commercial gas metering systems of gas filling columns (hereinafter referred to as GZK) of automobile gas filling compressor stations (hereinafter referred to as CNG filling stations) when filling with compressed natural gas (hereinafter referred to as CNG) mobile automobile gas tankers (hereinafter referred to as CNG) intended for transportation, short-term storage and distribution of gaseous motor fuel - CNG to consumers using CNG as a motor fuel, for example, gas-cylinder vehicles.

There is a known method for verifying the system for measuring the amount of compressed gas released by the CNG filling station, including the delivery to the CNG filling station of a cylinder with a hydraulic volume of 100 l (100 dm ³ ) or two cylinders with a hydraulic volume of 50 l (50 dm ³ ) each and reference scales, after which an empty one is weighed on the reference scales (s) cylinder(s), then attach the cylinder(s) to the GZK CNG filling station, check the tightness of the GZK, fill the cylinder(s) CNG to a pressure of 19.6 MPa (200 kgf/cm ² ), weigh the filled cylinder(s), then according to the results of weighing the empty (s) and filled (s) cylinders and the readings of the scoreboard (display) of the GZK, the measurement error is calculated, after which the degassing (discharge of gas into the atmosphere) of the cylinder (s) to atmospheric pressure is carried out. Operations for filling, weighing filled cylinders, performing calculations and degassing during verification are carried out at least 3 times [State system for ensuring the uniformity of measurements. System for measuring the amount of compressed gas released by CNG filling stations. Method for verification of MP 87-221-2015, developed and approved by FSUE "UNIIM", Yekaterinburg, 12.10.2015, p. 5-8].

A well-known method for checking gas filling columns KZGT-KSM and KZGT-KSM-PAGZ, including the delivery of a cylinder with a hydraulic volume of 100 l (100 dm ³ ) or two cylinders with a hydraulic volume of 50 l (50 dm ³ ) to the CNG filling station and reference scales, after which on the reference empty cylinder(s) are weighed on a scale, then the cylinder(s) are connected to the GZK CNG filling station, the tightness of the GZK is checked, the CNG cylinder(s) are filled up to a pressure of 19.6 MPa (200 kgf/ ^cm2 ), the filled cylinder(s) are weighed ), then, according to the results of weighing the empty (s) and filled (s) cylinders and the readings of the scoreboard (display), the GZK calculates the measurement error, after which the degassing (discharge of gas into the atmosphere) of the cylinder (s) to atmospheric pressure is carried out. Operations for filling, weighing filled cylinders, performing calculations and degassing during verification are carried out at least 3 times [State system for ensuring the uniformity of measurements. Gas-filling columns KZGT-KSM and KZGT-KSM-PAGZ. Verification procedure MP-002 / 04-2017, developed and approved by PROMMASH TEST LLC, Moscow 04/27/2017, p. 2-6].

A disadvantage of the known methods of verification is the need to bleed CNG from the cylinder(s) into the atmosphere after each operation of filling and weighing the cylinder(s). Also, the existing verification methods provide for three-time comparative measurements at each GZK, and the calibration interval is once a year, the volumes of CNG vented into the atmosphere are about 60 m ³ CNG per one GZK. Taking into account that the estimated number of GZK at each CNG filling station is from 4 to 6 units, and the total number of CNG filling stations in the Russian Federation is about 600 units, the total amount of CNG bleed during verification at CNG filling stations reaches 150,000 m ³ /year. Also, there is a need to deliver a cylinder (s) and scales with a significant mass to the CNG filling station, which implies additional transportation costs and does not exclude the possibility of injury to operating personnel during loading and unloading operations. For the period of verification to fill the cylinder (s) of CNG, decommissioning of the verified GZK is required, which can lead to downtime of the CNG filling station.

A known method for determining the amount of high-pressure gas released into the receiver of the consumer, selected by the applicant as a prototype, including the supply of gas from the source to the intermediate tank, weighing the intermediate tank, determining the mass of gas in the receiver, which consists in disconnecting the intermediate tank from the gas source before by weighing it, the receiver is filled with gas from the intermediate tank, the intermediate tank is turned off when the specified gas parameter in the receiver is reached, the intermediate tank is re-weighed, and the weight difference is used to determine the mass of gas that has entered the receiver, and the cycle of high-pressure gas release to the consumer receiver is repeated, at the same time, the masses of gas entering the receiver are sequentially summed up [patent of the Russian Federation No. RU 2625255, IPC G01F 1/76, publ. 07/12/2017 bul. No. 20].

The disadvantage of the prototype is the need to bleed CNG from the storage tank into the atmosphere after each operation of filling and weighing the storage tank. In addition, the possibilities of further use of CNG, which is accumulated in the storage tank, have not been determined. Also, there is a need to deliver storage capacity and scales with a significant mass to the CNG station, which implies additional transportation costs and does not exclude the possibility of injury to workers during loading and unloading operations. For the period of verification to fill the storage tank of CNG, decommissioning of the verified GZK is required, which can lead to CNG station downtime.

The technical problem of the proposed invention is the creation of a method for verifying the commercial gas metering system installed at the GZK, which provides a significant reduction in the volume of CNG emissions into the atmosphere during verification.

The technical result of the proposed method for verification of the commercial gas metering system installed at the GZK CNG filling station is to ensure a reduction in the volume of CNG emissions into the atmosphere during verification.

The technical result in the method of verification of the commercial gas metering system installed at the GZK CNG filling station, including the gas supply from the source, is achieved by the fact that the gas is supplied through a high-pressure hose to the refueling unit of a mobile gas car tanker with a reference meter unit installed on it, then the gas is supplied at the inlet of the reference meter block by opening the valve, the volume of gas entering the PAGZ is measured, after which the gas is fed through the open valve into the cylinder block of the PAGZ, then during the filling process or at the end of the filling, the readings of the reference meter block are compared with the readings of the gas commercial metering system, installed on the gas station.

The invention is illustrated in Fig., in Fig. a diagram of the implementation of the method for verifying the commercial gas metering system of the GZK CNG filling station is presented, where 1 is the GZK CNG filling station, 2 is a high-pressure hose, 3 is a filling unit, 4 is a reference meter unit, 5 is a pipeline, 6 is a block of cylinders, 7, 8 are valves , 9 - discharge line, 10 - discharge line valve, 11 - bypass line, 12 - bypass line valve, 13 - CNG delivery unit to the consumer, 14 - outlet pipeline, 15 - outlet pipeline valve.

In the example of a specific execution, the PAGZ contains a unit for filling CNG gas cylinders from an external source, for example, a gas filling column (hereinafter referred to as GZK) 1 CNG filling station. GZK 1 is connected to the refueling unit 3 through a high pressure hose 2. In turn, the refueling unit 3 is connected to the input of the reference meter block 4 using the pipeline 5, and the output of the reference meter 4 is connected to the gas cylinder block 6 using the line 5. cylinders 6 is connected to the CNG dispensing unit 7 through line 5.

In the example of a specific implementation, the reference meter unit 4 is produced by the industry and is a purchased unit, for example, a reference gas meter of the ELMETRO Flomac brand manufactured by ElMetro Group LLC, Chelyabinsk.

The reference meter block 4 contains shut-off valves, namely the valve 7 installed on the line 5 before the input of the reference meter block 4, and the valve 8 installed on the line 5 at the outlet of the reference meter block 4. The line 5 is connected to the discharge line 9 with placed on it by a valve 10 located between the valve 7 and the inlet of the block of the reference meter 4. The refueling unit 3 is also connected to the line 5 by means of a bypass line 11 with a valve 12 placed on it. crane 15.

Let us consider the implementation of the proposed method for verification of the commercial gas metering system installed at the GZK CNG filling station, shown in Fig.

Refueling unit 3 PAGZ is connected to GZK 1 CNG filling station by means of a high pressure hose 2. Before starting the verification of the GZK 1 commercial gas metering system, valves 7, 8, 10 and 15 are in the “Closed” position, valve 12 is in the “Open” position.

During the calibration of the GZK 1 commercial gas metering system, valves 7 and 8 are opened, valve 12 is closed, valves 10 and 15 remain in the “Closed” position. Next, the CNG is launched from the GZK 1 to the filling station 3 under a pressure of not more than 24.5 MPa (250 kgf/cm ² ). CNG through an open valve 7 enters the input of the block of the reference meter 4, in which the volume of gas entering the PAGZ is measured, after which, through the open valve 8, CNG enters the block of gas cylinders 6 to fill them.

In the process of filling the PAGZ or at the end of it, the readings of the reference meter unit 4 are compared with the readings of the commercial accounting system installed on the GZK 1 and, if deviations are found in the readings, the commercial accounting system of the GZK 1 is adjusted.

At the same time, CNG continues to perform direct functions of transportation, short-term storage and distribution of CNG to consumers.

Thus, the technical problem is solved and the technical result is achieved.

The claimed technical solution is industrially applicable, preparations have begun for industrial production of a prototype PAGZ
for use at production facilities of Gazprom Group companies.

Claims (1)

A method for verifying a gas commercial metering system installed at a gas filling column of an automobile gas filling compressor station (GZK CNG filling station), including gas supply from a source, characterized in that gas is supplied through a high pressure hose to the refueling unit of a mobile gas automobile refueling station (PAGZ) with a it with a reference meter block, then the gas is supplied to the input of the reference meter block by opening the valve, the volume of gas entering the PAGZ is measured, after which the gas is fed through the open valve into the block of cylinders of the PAGZ, then in the process of refueling or after it, the readings of the reference meter block compared with the readings of the commercial gas metering system installed on the gas dispenser.