RU2397453C1 - Method of measuring volume of liquid in closed reservoir - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: measurement of volume of liquid in a closed reservoir involves changing the volume of gas over the surface o the liquid by a known value ΔV and determination of gas pressure before and after changing the said volume. Volume of gas is changed by feeding a volume of liquid ΔV into the closed reservoir which leads to reduction of the volume of gas and is determined using the formula:

, where V₀ and V is volume of liquid in the closed reservoir and total volume of the reservoir respectively, m³; ΔV is volume of liquid fed into the reservoir in order to reduce the volume of gas over the free surface of the liquid, m³; p₀ and p₁ is pressure of gas over the surface of the liquid before and after feeding the volume of liquid ΔV respectively, Pa (atm).

EFFECT: more accurate measurement of volume of liquid in a closed reservoir due to prevention of escape of gas over the free surface of the liquid.

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Description

The present invention relates to measuring the liquid level in wells, wells and pressurized containers and can find application in drilling equipment, chemical and petrochemical industries and utilities.

A device for measuring the liquid level containing a sensing element connected to the transducer in the housing, to which a counter-pressure cavity with an inlet is hermetically connected, the sensitive element is made in the form of a diaphragm, and the counter-pressure cavity is a channel with a separator in the form of an L-shaped elbow, filled with liquid or gas, the entrance to the cavity of which is made at the lower end of the knee (RF patent No. 1493877, G01F 23/18, bull. No. 26, 1989).

The reasons that impede the achievement of a given technical result include the complexity of the design, its adjustment and operation, which leads to a decrease in the accuracy of measuring volume in a closed tank.

A known method of determining the level of liquid in a closed container, which consists in pumping part of the air above the liquid with a vacuum pump to create a certain vacuum. Then the vacuum is released and the time of atmospheric pressure recovery in the vessel is used to judge the liquid level in it (DT 19750620, B60K 15/06; G01F 17/00; G01F 20/14; B60K 15/03, 1999).

The reasons that impede the achievement of a given technical result include the complexity of the equipment for implementing the known method, associated with the need to install a vacuum pump and a registration device for determining the time for pressure equalization with a liquid, which leads to errors in measuring the volume of liquid in a closed tank.

A known method and methods for determining the volume of liquid in a closed tank or chamber with a total volume V, including creating a vacuum in a gas above the surface of the liquid by increasing the volume of this gas by moving its part ΔV to another measured volume, determining the volume of gas above the liquid level by the formula

where V ₁ is the volume of gas above the liquid level, m ³ ;

p ₀ and p ₁ - respectively, the absolute gas pressure before and after creating a vacuum above the liquid level;

ΔV is the measured volume into which part of the gas is moved when a vacuum is created above the liquid level, while the pressure ratio p ₁ / p ₀ is determined by the formula:

where m and n are, respectively, the cylinder volumes of the piston gas vacuum pump before the vacuum is created and after it is created.

Finally, the volume of liquid in the tank is calculated by the formula:

(UK patent GB 341306, G01F 23/16, G01F 23/14, 1931).

The reasons that impede the achievement of a given technical result include the complexity of measurements and intermediate calculations, as well as hardware design, including a measuring vessel for fixing volume V, a gas piston vacuum pump for fixing volumes m and n (formula 2), a U-shaped differential pressure gauge and a scale for measuring the volume ΔV, which leads to errors when measuring the volume of liquid in a closed tank.

The closest technical solution to the claimed object according to the totality of features and selected for the prototype is a method of measuring the volume of liquid in a closed tank, including increasing the gas volume by a known value ΔV, while increasing the gas volume by a known value ΔV is carried out by pumping liquid volume from a closed tank equal to ΔV, measure the gas pressure above the surface of the liquid before and after pumping out this volume ΔV and the volume of liquid in the tank is determined by the formula:

where V ₀ and V - respectively, the volume of liquid in a closed tank and the total volume of the tank, m ³ ;

ΔV is the volume of fluid pumped out of the reservoir to increase the volume of fluid above the free surface of the fluid, m ³ ;

p ₀ and p ₁ - respectively, the gas pressure above the surface of the liquid before and after pumping the liquid volume ΔV, Pa (at) (RF patent No. 2344380, G01F 23/00, 2009).

The reasons that impede the achievement of a given technical result is a decrease in the accuracy of measuring the volume of liquid in a closed tank, when part of the gas above the free surface of the liquid enters the drain volume ΔV when it is pumped out. Especially this problem of gas breakthrough in the drain pipe occurs when the closed tank is under pressure.

The objective of the proposed technical solution is to prevent the possibility of escape of gas located above the free surface of the liquid in a closed tank, when measuring the volume of liquid in it.

The technical result of the proposed method for measuring the volume of liquid in a closed tank is to increase the accuracy of measuring this volume.

The technical result is achieved by the fact that in the method of measuring the volume of liquid in a closed tank, which includes changing the volume of gas located above the surface of the liquid by a known value ΔV and determining the gas pressure before and after changing this volume, the change in gas volume is carried out by supplying a closed reservoir of liquid volume equal to ΔV, leading to a decrease in gas volume, and the volume of liquid in the tank is determined by the formula:

where V ₀ and V - respectively, the volume of liquid in a closed tank and the total volume of the tank, m ³ ;

ΔV is the volume of liquid supplied to the tank to reduce the volume of gas above the free surface of the liquid, m ³ ;

p ₀ and p ₁ - respectively, the gas pressure above the surface of the liquid before and after supplying the liquid volume ΔV, Pa (at).

The supply of a liquid with a volume of ΔV to a closed tank is a more accurate technological process than pumping out the same volume of liquid from this tank, especially when the volume of liquid V ₀ in the tank is small and gas can leak into the drain pipe when pumping out. Especially this possibility increases when the gas above the surface of the liquid and the liquid itself are under significant overpressure. Thus, the proposed method for measuring the volume of liquid in a closed tank allows you to more accurately determine this volume in the entire range of possible levels of liquid in the tank and pressure in it compared to the method selected for the prototype.

The installation diagram for implementing the proposed method for measuring the volume of liquid in a closed tank is shown in the drawing.

It consists of a closed tank 1 with a total volume V, in which there is a certain amount of liquid V ₀ forming a liquid level 2. The tank has a pipe 3 on top for periodic liquid filling. The pipe 3 is hermetically closed by a cover 4. A pressure gauge 5 is also installed on top of the tank for measuring the pressure in the gas (air) above the liquid level 2. On the side of the tank there is a pipe with a valve 6 to which the liquid pump 7 is connected. To measure the volume of liquid ΔV supplied to the tank the liquid pump 7 is a measured tank 8. At the bottom of the tank 1 there is a pipe with a valve 9 for supplying liquid to consumers.

The implementation of the proposed method for measuring liquid in a closed tank is as follows.

Measure the gas pressure in the tank 1 above the liquid level 2 p ₀ , turn on the pump 7, open the valve 6 and pump a fixed volume of liquid ΔV into the tank 1 from the measuring tank 8. The liquid level 2 in the tank 1 increases, and the volume of gas (air) above the liquid decreases by a fixed fluid volume ΔV. Thus, if the volume of gas in the tank 1 decreases, then according to the Boltzmann-Mariotte law, the pressure increases. Register with a manometer 5 this pressure p ₁ in the tank 1 after supplying a fixed volume of liquid ΔV to it. Then from the Boyle-Marriott law follows

p ₀ · (VV ₀ ) = p ₁ - [V- (V ₀ + ΔV)],

where the volume of liquid in the tank 1 is determined by the formula (4).

Example 1. It is necessary to measure the volume of liquid V ₀ in a closed tank having a total volume of V = 1 m ³ . The gas pressure in the tank, measured by a manometer 5, p ₀ = 2 at. Turn on pump 7, then open valve 6 and supply ΔV = 10 l of liquid with pump 7 from the measuring tank 8 to the tank 1. Measure the gas pressure p ₁ = 2.1 atm using a pressure gauge 5 in the tank 1 after supplying the liquid volume ΔV = 10 l and according to the formula (4) calculate the volume of liquid in the tank

Example 2. It is necessary to measure the volume of liquid V ₀ in a closed tank having a total volume of V = 2 m ³ . The gas (air) pressure in the tank, measured by a manometer 5, p ₀ = 1.033 atm (atmospheric pressure). Turn on the pump 7, open the valve 6 and feed the pump from the measuring tank 8 into the tank 1, the volume of liquid ΔV = 15 l. Measure the pressure p ₁ = 1.2 atm with a pressure gauge 5 after feeding this volume ΔV into it. Calculate by the formula (4) the volume of liquid in a closed tank 1

Example 3. It is necessary to measure the volume of liquid V ₀ in the tank 1, located underground and having a volume of V ₀ = 10 m ³ . The gas pressure in the tank, measured by a manometer 5, p ₀ = 1.1 atm (slight overpressure). Turn on the pump 7, open the valve 6 and feed the pump from the measuring tank 8 into the tank 1, the liquid volume ΔV = 50 l. Measure the pressure p ₁ = 1.15 atm with a pressure gauge 5 after supplying a volume of liquid ΔV = 50 l to the reservoir. Calculate by the formula (4) the volume of liquid in a closed tank 1

Thus, the proposed method for measuring the volume of liquid in a closed tank allows you to determine the volume of liquid in it at any liquid level and pressure in the tank without the possibility of breaking part of the gas from the tank, as can happen in the method adopted for the prototype, when at high pressures and low the volume of liquid (and hence its low level above the drain pipe), a gas breakthrough is possible during liquid discharge, which leads to errors in determining the volume V ₀ in the prototype.

The method is simple in instrumentation, equipment and technology, as it only requires a pressure gauge, a measuring tank and a liquid pump to supply a small portion of the liquid to the tank, and this may be the same pump that periodically pumps the liquid into the tank in its main technology use.

As can be seen from the examples 1-3, the proposed method for measuring the volume of liquid in a closed tank is accurate at any pressure and volume of liquid in the tank, and is also simple in technological operations, calculations and time of measuring the volume of liquid. In addition, the method is safe in technological execution and does not require high qualification of the working personnel.

Claims (1)

A method for measuring the volume of liquid in a closed tank, including changing the volume of gas located above the surface of the liquid by a known value ΔV and determining the gas pressure before and after changing the volume of gas, characterized in that the change in gas volume is carried out by supplying a volume of liquid equal to ΔV, leading to a decrease in gas volume, and the volume of liquid in the tank is determined by the formula

,
where V ₀ and V - respectively, the volume of liquid in a closed tank and the total volume of the tank, m ³ ;
ΔV is the volume of liquid supplied to the reservoir to reduce the volume of gas above the surface of the liquid, m ³ ;
p ₀ and p ₁ - respectively, the gas pressure above the surface of the liquid before and after the supply of liquid volume ΔV, Pa (at).