RU2112930C1 - Method measuring volume of solid bottoms in tanks - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: method can also be used to measure volume of loose and solid substances, specifically, oil-carrying bottoms collected in tanks of various assignment. First in accordance with method liquid is completely pumped out from tank, then measured volume is pumped into tank, summary volume of solid bottoms and pumped liquid is determined and volume of solid bottoms is found by difference of this summary volume and pumped oil. EFFECT: improved reliability of method.

Description

 The proposal relates to measuring equipment and can be used to measure the volume of solids and solids, in particular oily sediments that accumulate in tanks for various purposes.

 It is known that during the operation of raw technological tons of commodity tanks at the central oil collection points, bottom oil-containing sediments accumulate, the volumes of which depend on the composition of the incoming raw materials. For normal operation of the tanks, it is necessary to periodically monitor the accumulated oily sediments and withdraw them for further processing.

 A known method of measuring the volume of a substance in a closed vessel, based on the use of generators of oscillations of the eider and the subsequent measurement of pressure changes [1]. The method involves the use of complex devices to create gas pressure fluctuations and then measure the change in pressure fluctuation. In this case, the accuracy of the measurement largely depends on the volume of the tank and its tightness.

The closest in technical essence to the proposed one is a method for determining the volume of a solid body [2], which consists in measuring the volume of the chamber, filling the chamber with water, measuring the volume of water and determining the volume of the solid body in the chamber, by the difference between the volume of the chamber and the volume of water consumed to fill the space in the chamber, not occupied by a solid body. A significant drawback of this method is the need to measure the volume of the tank chamber and fill the entire volume with water. So, to fill the oil tanks used in the oil industry, it is necessary to pump 5000 or 1000 m ^{3 of} water, which will require large energy costs for its injection.

 The aim of the proposed method is to reduce material costs and improve measurement accuracy when determining the volume of solid sediments, mainly oily sludge in the tank.

 This goal is achieved by the described method of measuring the volume of solid sediment in the tank, for example, oily sediment in the tank, which consists in pumping the liquid into the tank and measuring the total volume of the injected liquid and solid sediment.

 What is new is that a measured volume of liquid is pumped into the tank, and the volume of solid sediment is determined by the difference between the total volume of injected liquid and solid sediment and the measured volume of injected liquid.

It is known that oily sediments accumulate in stagnant zones at the bottom of the tank and therefore the surface profile of the accumulations is the most diverse (in height from 5 to 150 cm) depending on its life. Freight transport operations in oil tanks are carried out in the following sequence: filling - sediment - pumping out - filling. The use of the measured volume of injected liquid during the filling operation for measuring the volume of oily solid sludge during the filling operation allows us to obtain a new technological effect - to reduce the measurement costs and accurately determine the amount of solid sediment in the tank, including with a sealed system for any accumulation profile along the bottom of the tank. This increases the accuracy of the measurement, since with a hermetically sealed hatch and normal operation of the breathing valves, the entire volume is pumped out of the tank until the measured volume of liquid is pumped, regardless of the profile of the surface of solid accumulations over the area of the tank. When measuring the volume of solid precipitation by the known method, it is necessary to fill the entire volume of the chamber-tank with water (volume 5000-10000 m ³ ), which will require large expenses for its injection. When measuring the volume of solid accumulations according to the claimed method, the reservoir can be filled with liquid at 5-80% of the useful volume, i.e. not to the full extent. In this case, the tank is filled not with water, but with working fluid - oil. The advantage of the claimed method is the safety of the work, as the reservoir is sealed, and reducing the cost of the measurement process by combining the injection of the measured volume of the working fluid with freight transport operations.

 The proposed method is carried out in the following sequence. After operation for a predetermined time, for example, after a year, into the oil tank (raw, technological, buffer) after the goods and transport operation is completed, the calculated amount of liquid (water, emulsion or commercial oil) is pumped through the meter through the meter. Then, through the remote level gauge, the height of the liquid spill is determined and the total volume of the injected liquid and the oily solid sediment are calculated. The difference in the total volume and volume of the injected liquid determines the volume of solid sediment.

Example. After pumping, 3000 m ^{3 of} commercial oil was pumped into the RVS-5000 tank. After measuring the height of the injected liquid, the calculated total volume was 3283 m ³ . The difference in volume or volume of accumulated precipitation is (3283 - 3000) = 283 m ³ .

Claims (1)

 A method for measuring the volume of solid sludge in a tank, mainly oily sludge in the tank, which consists in pumping a liquid into the tank and measuring the total volume of pumped liquid and solid sludge, characterized in that the measured volume of liquid is pumped into the tank, and the volume of solid sludge is determined by the difference in the total volume of injected fluid and solid sediment; and measured volume of injected fluid.