RU2314501C1 - Method of calibrating tanks - Google Patents

Abstract

FIELD: measuring technique.

SUBSTANCE: method comprises discharging fuel from the tank through the high-precision members up to the minimum level possible during operation. The volume of the tank is measured at the level of discharging with regard to the temperature difference at the outlet of the tank and members.

EFFECT: enhanced precision.

4 cl

Description

The invention relates to measuring equipment and can be used in fuel depots or tank farms carrying out operations of reception, storage and dispensing of petroleum products.

A device is known (see, for example, the description of copyright certificate No. 1328681. Publ. 07.08.87. Bull. No. 29) for calibrating tanks, consisting of a tank, a pneumatic system, a centrifugal pump, a flow control throttle with a viewing device, a flow meter, a three-way valve , exemplary measuring device, level gauge with a float, control units, power supply and computing. However, this device does not allow accounting for possible deformations of the tank body.

The device is also characterized by excessive material costs. The possibility of oil products dispensing and regular operation of gas stations (NPPs) and oil bases (NB) is excluded. The measurement accuracy drops during operation and involves the repetition of this operation after a certain time. Metrological stability is low when changing seasons. The temperature difference inside the tank and at the outlet of the fuel dispensers (TRK) is not taken into account, which in turn affects the accuracy of the calibration of the tanks.

The closest in technical essence to the proposed technical solution is the method of calibrating tanks (see RF patent No. 2178153, publ. 10.01.2002, bull. No. 1), including the introduction of the source data of the tank, operating conditions, use as a working liquid petroleum products, dispensing petroleum product from the tank in portions through fuel dispensers (fuel dispensers) in normal operation to a level corresponding to its minimum value in the tank, at intervals of soothing tempering of oil product, measuring parameters and calculating the calibration of the tank taking into account the temperature of the oil on the fuel dispenser (fuel dispenser) with subsequent adjustment of the volume of tempering, clarification of the calibration characteristics using measuring devices.

The known method of calibration involves filling the tank to the maximum value of the spill.

Filling the tank with oil to the maximum inflow rate and dispensing the oil with graduation operations to a level corresponding to the minimum value of the oil in the tank is repeated at least 3-5 times.

Refinement of the characteristics with the help of exemplary measuring devices produced on a shift basis.

Calibration is carried out simultaneously of several or all reservoirs that are in operation of gas stations (oil stations) or oil depots (oil depots) and the operation of all or several fuel dispensers or automated loading risers (ASN) and their combination.

Known methods have several significant disadvantages:

All major methods involve calibrating tanks in bulk from an empty tank to the maximum level.

In most fuel depots, due to the rise in price of oil products, their reserves are limited and the tanks are not always filled up to the maximum level, and on the other hand, in the working tanks, the absence of oil product can only occur during repair, cleaning, etc. Therefore, calibration should be carried out in the operating modes of the fuel depots, i.e. using standard fuel dispensers (fuel dispensers), using standard oil products for calibration. All calibration operations must be carried out in the tank drain mode.

Calibration of large tanks of 2000 m ³ , 5000 m ³ , and more when filling them out from the fuel dispensers will take a long time, and its repetition 3-5 times is generally difficult to combine with the regular operation of the fuel base.

Low accuracy of standard fuel dispenser-error when dispensing in volume ± 0.25%.

The use of several fuel dispensers will require the repeated use of an exemplary meter to reduce calibration error.

It is necessary to clarify the volumes of oil product (NP), dispensed by the fuel dispenser, and the volumes of oil discharged from the tank. In this regard, temperature adjustment in the fuel dispenser and at the level of discharge from the tank should be carried out separately for each fuel dispenser (taking into account the installation location).

An object of the invention is to calibrate the tanks of the fuel base or gas stations with high accuracy using standard equipment of the base or stations.

The technical problem is achieved in that in a method for calibrating reservoirs, which includes introducing into the computing unit the source data of the reservoir, operating conditions, using petroleum products as the working fluid, dispensing the petroleum product from the reservoir in portions through fuel dispensers (fuel dispensers) in normal operation to a level corresponding to its minimum value in the tank, at intervals of calming the released oil product, measuring parameters and calculating the calibration of the tank taking into account the temperature oil product tours on a fuel dispenser (TRK) followed by adjusting the volume of tempering, calibrating characteristics are calibrated with the help of measuring devices, the tank is calibrated when the tank is filled with oil to any operational level under normal operation of oil bases or gas stations, for which, initially, using the calibration calculating unit tank tables determine the volume of the tank at a level corresponding to close to the maximum operational, counting This level is the initial one, then the petroleum product is dispensed from the tank through high-precision fuel dispensers to the level corresponding to the minimum possible in operation, the tank volume is determined from the calibration tables of the tank at this level, after the tempering of each portion of the petroleum product, the parameters are measured and the calibration is calculated reservoir according to the formula

where V _p is the volume of the tank;

V _mpk is the volume of oil released from the fuel dispenser;

- относительный объем нефтепродукта, отпущенный из резервуара и топливораздаточной колонки,

- the relative volume of oil released from the tank and the dispenser,

the relative volume is defined as the ratio of the volume of oil discharged from the reservoir to the volume of oil discharged from the dispenser, the volume of oil discharged from the dispenser is corrected for the actual dispensed volume from the reservoir, taking into account the difference in temperature of the oil measured at the outlet of the dispenser and reservoir, for which, in each fuel dispenser, by means of temperature sensors, a high-precision densitometer and a selective filter p of the volumetric meter, measure the temperature, density and volume of the oil product, use the well-known formula to calculate the weight of the oil when dispensed from the fuel dispenser, then recalculate the measured density using the calculation tables of the computing unit, determining the standard density value and taking into account the weight of the oil product, the volume at standard temperature t = 20 ° C, the obtained standard volume value is used in calculating the volume of oil released from the tank at the oil temperature at exiting it, the oil product tempering operation with subsequent calibration is repeated until the level corresponding to the minimum operational level is reached, the obtained volume calculation results are summed up, determining the volume of the tank or the volume of its part, then the old data are compared at a level close to the minimum possible operational level, and new at the same height of the filling level according to the automated system, and the results obtained are brought into correspondence, moreover, if the volume of the oil product is greater than the old one calibration, then the volume at this level is left according to the old calibration data, and all data obtained as a result of calibration is reduced by the difference in volumes between the old and the new calibration, or if the volume of oil is less than the old calibration, the data is left at the level corresponding to the minimum possible under operational conditions, according to the old calibration, and all the data of the new calibration are increased by the difference in volume according to the old and new calibration, at the same time, the error is determined several times during calibration each dispenser exemplary of the dipstick, the mean square error calculated by volume of the column and this value produces electronic adjustment column.

When calibrating, high-precision fuel dispensers with a volume error of ± 0.15%, selective selective volumetric meters with an error of 0.08-0.15%, an exemplary measuring device of increased accuracy with a volume error of ± 0.05- ± 0.06 are used % and by weight ± 0.04-0.05%.

As tanks use fuel tanks or tanks.

The proposed method for calibrating tanks is as follows.

The method for calibrating tanks includes an automated system for metering oil products in vertical and horizontal tanks (for example, "Gamma" UIP 9602). In this case, the oil product metering system in the tank contains the calibration tables of the tank, determining the levels at which calibration is carried out, and measuring parameters taking into account the temperature of the liquid being filled. Level sensors should be located not less than 20–40 mm apart, and the device for draining from a filled tank is one or several high-precision fuel dispensers. This allows you to calibrate the tank to a certain height (if it is rarely filled completely), and also when draining the oil, partial calibration of the tank is possible in the range of the most used levels (max and min). If there is a technological possibility, then a full calibration of the tanks.

A feature of the proposed method is calibration only in the drain mode, while filling in the tank is carried out from railway tanks with high capacity (up to 60 t / h and above) and does not allow calibration of the tanks at this time.

Calibration is performed on the working oil product during the operation of the tanks directly at the oil bases or gas stations in the mode of fuel drain from the tank through high-precision fuel dispensers. Due to the fact that the filling of the tank is connected with the fuel supply limits in tons (or in days of consumption), it is impossible to fill the tank at many fuel bases. Therefore, it is possible to partially calibrate the tank when the tank is filled to a level close to the maximum operational, and then in the drain mode it decreases to a level close to the minimum in operating conditions. In the computing unit of the system, the readings of the counters of the fuel dispensers working with the tank in which the calibration is carried out are recorded.

Suppose that during operation of the tank its filling reaches 1000 m ³ and the minimum supply is 200 m ^{3 of} oil product (diesel fuel).

According to the tank calibration tables (old), the tank volume is determined at a level corresponding to 1000 m ^{3 of} oil product. We consider this level value to be initial. Next, we calibrate in batches that provide a level change of 20-40 mm with a subsequent calm period when the minimum possible availability of 200 m ³ NP is reached in operation, note the level (according to the old calibration).

In this case, the correction of the volume released from the fuel dispenser to the actually dispensed volume from the tank is determined taking into account the temperature difference between the oil outlet at the outlet of the tank and the fuel dispenser.

In most known cases, fuel is dispensed by volume with an error of 0.25%. The mass measurement is carried out taking into account the density measurement at various actual temperatures of the oil in the tank. Various climatic conditions, the residence time of the oil product in the tank, the temperature of the oil product when it is drained into the tank affect the density change in the tank, as well as the correct determination of the mass of the oil product. When storing oil product, its mass remains constant. During discharge and filling, the level of the oil product decreases (rises). Volume measurement is performed with relatively high accuracy, and the temperature range, and accordingly, the density of the oil product (average), measured by several sensors, gives a significant error in these modes when calculating the mass, which is determined by the formula taking into account the values of volume, temperature and density.

Therefore, taking into account the change in the mass of the oil product should be made taking into account the change in volume, as in the case of storage, and the density of the oil product should be determined at the level of discharge (filling) by one density sensor. This factor is especially important when calibrating fuel tank tanks or gas stations.

In the proposed method, the volume released from the reservoir is corrected (the correction of the volume released from the dispenser to the actually dispensed volume from the reservoir is determined taking into account the temperature difference between the outlet ports from the reservoir and the dispenser), for which the following operations are carried out:

The volume of fuel dispensed from the dispenser is determined by the formula

where V _{t mpк} - the volume of oil released from the fuel dispenser at a temperature t _mpk ;

V ₂₀ - the volume of oil at a standard temperature of 20 ° C;

β is the coefficient of volume expansion of the oil product, 1 / ° C;

t _mpк - oil product temperature at the outlet of the fuel dispenser.

The volume of fuel released from the tank is determined by the formula

where V _tp is the volume of oil released from the tank at a temperature t _p ;

V ₂₀ - the volume of oil at a standard temperature of 20 ° C;

t _p is the temperature of the oil at the level of its exit from the tank.

), отпущенный из резервуара и ТРК, определяется по формулеThe relative volume of oil (

) released from the tank and fuel dispenser is determined by the formula

When calibrating the tank, we enter the volumetric flow data for the fuel dispenser taking into account the temperature adjustment

If the densitometer is installed at some distance from the tank in the pipeline supplying the dispenser, then, taking into account the temperature change to the place of installation of the densitometer, the temperature of the oil product is measured with a small delay of 1-2 seconds.

After calibration, we compare the old data at the level corresponding to V = 200 m ³ and the new (at the same height level of the filling according to the automated system.

There are two reading options for this height of inflow according to the new calibration:

1. The volume of oil is greater than the old calibration. In this case, we leave the volume at this level according to the old calibration data, and we reduce all the data obtained as a result of the calibration by the difference in volumes between the old and the new calibration;

2. The volume of oil product is less than the old calibration, we leave the data at a level corresponding to 200 m according to the old calibration, and all the data of the new calibration are increased by the difference in volume according to the old and new calibration.

During the calibration of the tank several times (3 or 4), the error of the fuel dispenser is determined using an exemplary measurer. Measurements are carried out using an exemplary measuring device of increased accuracy with an error in volume of ± 0.05- ± 0.06% and in weight ± 0.04-0.05%.

Then, the mean square error of the fuel dispenser is calculated by volume and the column is electronically adjusted by this value.

According to the results of calibration of the fuel dispenser with an exemplary measuring device, electronic error adjustment is performed according to the average error value according to the measuring device

where δ _vcp is the average error of the fuel dispenser in volume;

δ _v1 ... δ _vn is the error in the volumetric loading of the fuel dispenser for various measurements;

n is the number of measurements.

If the error occurs with different signs, this is taken into account when adjusting.

In the process of calibration, the error of each fuel dispensing column is determined several times using an exemplary measurer, the mean square error of the column is calculated by volume, and the column is electronically adjusted to this value.

Suppose, when loading three doses of petroleum products and fuel dispensers, volume errors, determined with the help of a standard measuring device, were respectively + 0.11%; + 0.09%; +0.09%.

We find the average volume measurement error in three experiments

We consider the accuracy of adjustment, for example, equal to 0.01% by volume. We carry out adjustment by -0.09%, then the residual average error after adjustment will be _δνcp = 0.0967-0.09 = 0.007%. That is, the actual measurement error in volume after adjustment will be 0.007%, which guarantees high accuracy of calibration.

In the experiment on another product (fuel dispenser), the volume measurement errors were respectively -0.02%; + 0.01%; + 0.03%.

We carry out an adjustment with a volume reduction of 0.01%. Then the actual average volume measurement error will be 0.0033%.

Taking into account the use of high-precision fuel dispensers, it is possible to carry out regular calibration of VTRC with an exemplary meter using automatic adjustment according to the average error. The basic error of VTRC can be brought up to 0.01 ÷ 0.02% by volume. At the same time, a mandatory procedure is to bring the volume of the fuel dispenser to the volume in the tank, taking into account the temperature difference of the oil inlet at the outlet of the tank and at the outlet of the dispenser.

Thus, the adjustment of the fuel dispenser is an integral part of the proposed calibration method.

During the calibration, the oil product is dispensed from the reservoir through high-precision fuel dispensers (VTRC) with a volume error of ± 0.15%.

Volume measurement during tempering from VTRC is carried out by selective selection by a volume meter with an error of 0.08-0.15%.

When conducting a selective selection of volumetric meters, a batch of volumetric meters is made, each of which is subjected to an error test, then, taking into account the general range of errors from 0.08-0.25%, a group of volumetric meters with an error of 0.08-0.15% is distinguished.

Thus, the advantage of the proposed method is as follows:

1. The use of high-precision fuel dispensers.

2. The possibility of using a measuring device of increased accuracy.

3. During calibration, repeated measurement of the error of the actual measurements by volume, and according to the measurement results, adjustments taking into account the average error.

4. A more accurate measurement of the density and temperature of the oil at the outlet of the tank.

5. Determination of calibration error.

6. Possibility of partial calibration (data is changed only in the calibration zone).

7. It is possible to calibrate the tanks of diesel locomotives (after preliminary cleaning and steaming), as well as automobile tanks. Calibration is done in loading mode.

Claims (5)

1. A method of calibrating reservoirs, including introducing into the computing unit the source data of the reservoir, operating conditions, using petroleum products as the working fluid, dispensing petroleum from the reservoir in portions through fuel dispensers in normal operation to a level corresponding to its minimum value in the reservoir, at intervals calming the dispensed oil product, measuring the parameters and calculating the calibration of the tank taking into account the temperature of the oil product at the fuel dispensing count with subsequent adjustment of the volume of tempering, refinement of the calibration (calibration) characteristics with the help of measuring devices, characterized in that the tank is calibrated when the tank is filled with oil to any operational level under normal operation of oil bases or gas stations, for which, initially, using the calibration computing unit tank tables determine the volume of the tank at a level corresponding to close to the maximum operational, consider this level initial, then the petroleum product is dispensed from the tank through high-precision fuel dispensers to a level corresponding to the minimum possible in operation, the tank volume is determined from the calibration tables of the tank at this level, after the tempering of each portion of the petroleum product, the parameters are measured and the tank calibration is calculated using the formula

where V _p is the volume of the tank; V _mpk is the volume of oil released from the fuel dispenser;

- the relative volume of oil released from the tank and the dispenser, the relative volume is determined as the ratio of the volume of oil discharged from the reservoir to the volume of oil discharged from the dispenser, and the volume of oil discharged from the dispenser is corrected for the actual discharged volume from the reservoir, taking into account the difference in temperature of the oil discharged from the outlet fuel dispenser and tank, for which each fuel dispenser by means of temperature sensors, a high-precision densitometer and past select An explicit selection of the volumetric meter measures the temperature, density and volume of the oil product, using the well-known formula, calculates the mass of the oil when dispensed from the fuel dispenser, then the calculated density is recalculated from the calculation tables of the computing unit, determining the standard density value and taking into account the mass of the oil product the volume at standard temperature t = 20 ° C, the obtained standard value of the volume is used when calculating the volume of oil released from the tank at the temperature of oil the product at its outlet, the oil product tempering operation with subsequent calibration is repeated until the level corresponding to the minimum operational level is reached, the obtained volume calculation results are summed up, determining the volume of the tank or the volume of its part, then old data are compared at a level close to the minimum possible operational level, and new at the same height level of filling in an automated system and bring the results into line with, if the volume of oil is greater than calibration, then the volume at this level is left according to the old calibration data, and all the data obtained as a result of calibration is reduced by the difference in volumes between the old and the new calibration, or if the oil product volume is less than the old calibration, the data is left at the level, corresponding to the minimum possible under operating conditions, according to the old calibration, and all the data of the new calibration are increased by the difference in volume according to the old and new calibration, at the same time during the calibration several times are determined by reshnosti each dispenser exemplary of the dipstick, the mean square error calculated by volume of the column and this value produces electronic adjustment column. 2. The method according to claim 1, characterized in that when calibrating using high-precision fuel dispensers with a volume error of ± 0.15%. 3. The method according to claim 1, characterized in that during calibration, volumetric counters that have passed selective selection are used with an error of 0.08-0.15%. 4. The method according to claim 1, characterized in that, when calibrating, an exemplary meter is used with increased accuracy with an error in volume of ± 0.05- ± 0.06% and in weight ± 0.04-0.05%. 5. The method according to claim 1, characterized in that when calibrating, the tanks use diesel locomotive fuel tanks or tank cars.