RU186379U1 - FUEL FILLING DEVICE - Google Patents

Abstract

The utility model relates to the field of equipment of oil depots, oil and gas refining enterprises and is intended for automated measurement of the amount of oil, oil products, liquefied hydrocarbon gases, liquid products of petrochemicals and oil refining (hereinafter - the product), in units of mass. The technical result, to which the utility model is directed, is to increase the reliability of the fueling device by ensuring the stability of the flow of the dosed product during the dosing process. The technical result is achieved in a utility model that contains a three-dimensional frame with an inlet bellows compensator, an electric pump, a filter, a gas separator, an overpressure relief valve, a check valve, a mass meter, a double-acting valve, an outlet bellows compensator installed inside it and connected in series. 5 cp f-ly, 1 ill.

Description

The utility model relates to the field of equipment of oil depots, oil and gas refining enterprises and is intended for automated measurement of the amount of oil, oil products, liquefied hydrocarbon gases, liquid products of petrochemicals and oil refining (hereinafter - the product), in units of mass.

Fueling devices are used for automated measurement of the amount of liquid for commercial and operational accounting during discharge, filling stationary and transport measures of capacity, tanks, tanks, etc., as well as when pumping liquid between the supplying and receiving parties.

A device is known according to the patent for a utility model of the Russian Federation No. 128569 (published May 27, 2013) for dispensing liquids, designed to measure the amount of liquids when dosing oil and its refined products into automobile tanks, railway and automobile tanks, containing an electric pump, filter, gas separator, reverse valve, mass meter, outlet valve.

A disadvantage of the known device is the lack of reliability of the device, due to the fact that there is no system to control the clogging of the filter, and the device is not protected from airing of pipes in front of the mass meter, and from pressure drops in the inlet and outlet parts of the customer’s process pipelines, which reduces the accuracy of measurements due to instability flow of the dosed product.

The technical result, to which the utility model is directed, is to increase the reliability of the fueling device, by ensuring the stability of the flow of the dosed product during the dosing process.

The technical result is achieved in a utility model that contains a three-dimensional frame with an inlet bellows compensator, an electric pump, a filter, a gas separator, an overpressure relief valve, a check valve, a mass meter, a double-acting valve, an outlet bellows compensator installed inside it and connected in series.

Installing a differential pressure gauge parallel to the filter is preferred.

In one embodiment of the utility model, its composition further includes an earthing control device configured to cut off fuel supply in the event of a loss of grounding of the device.

In one embodiment of the utility model, it further comprises a controller for controlling the automation of the fueling device

In one embodiment of the utility model, it further comprises a control panel that can be performed remotely.

The presence of an overpressure relief valve avoids equipment breakdown and eliminates emergency situations during refueling operation, and also affects the increase in measurement accuracy by ensuring flow stability under conditions of significant pressure drops in the supply pipe.

The installation of a non-return valve in the position after the gas separator, immediately in front of the mass meter, eliminates the airing of the piping directly adjacent to the mass meter, which ensures high measurement accuracy.

The inlet and outlet bellows expansion joints reduce the effect of spasmodic pressure growth in the supply and outlet parts of the customer’s process pipelines. By means of bellows expansion joints, the pressure created in the process pipelines due to the thermal expansion of the product is also compensated.

The presence of a differential pressure gauge mounted parallel to the filter allows you to determine the degree of clogging of the product filter and clean it in a timely manner, which ensures long-term stability of the flow of the dosed product.

The hydraulic circuit of the device is presented in figure 1.

The utility model is implemented in a device containing an inlet bellows compensator 1 connected through a shut-off valve 2 and an electric pump 3 with a filter 4 made with a differential pressure gauge 5 installed in parallel, and the filter 4 connected to a gas separator 6, which is connected to a pressure relief valve 7, and through the check valve 8 with the mass meter 9, and the mass meter 9 is connected through a double-acting valve 10 with the output bellows compensator 11, while all the elements are mounted on the volumetric frame 12.

The utility model works as follows.

After setting the dispensed volume of the product by the operator at the remote or local control panel, the electric pump 3 is started using the control station and the product being pumped through the inlet bellows compensator 1, through the open shut-off valve 2, enters the filter 4 with a differential pressure gauge 5, then to the gas separator 6, and degassed the product passes through a check valve 8, and enters a mass meter (for example, a Coriolis flowmeter) 9, and, through a two-stage shut-off-control valve 10 and an output bellows compensator 11, loading device (not included with the utility model). The utility model ensures the accuracy of dosing of the product also by using the high and low flow rates that are realized when the electric pump 3 and the control valve 10 work together. If the pressure inside the device exceeds the maximum permissible pressure relief valve 7, it reduces it. All elements are mounted on a volumetric frame 12, which provides structural rigidity.

Claims (6)

1. A fueling device comprising a series-connected electric pump, filter, gas separator, mass meter and double-acting valve, a check valve, characterized in that these elements are mounted on a volumetric frame, bellows expansion joints are installed at the inlet and outlet of the device, and a check valve is installed after the gas separator before a mass meter, in addition, an overpressure relief valve is also installed in front of the mass meter. 2. The fueling device according to claim 1, characterized in that it further comprises a differential pressure gauge mounted parallel to the filter. 3. The fueling device according to claim 1, characterized in that it further comprises an earthing control device configured to cut off fuel supply in the event of loss of grounding of the device. 4. The fueling device according to claim 1, characterized in that it further comprises a controller for controlling automation of the fueling device. 5. The fueling device according to claim 1, characterized in that it further comprises a control panel. 6. The fueling device according to claim 5, characterized in that the control panel is remote.

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