RU63020U1 - OIL PRODUCT Sampler - Google Patents

Abstract

It contains sampling pipes located at different heights inside the tank, connected through shutoff valves to an oil sampling channel connected to the tank cavity through a priming pump, and a density meter is connected in series to the channel between the pump and the valve.

Description

The proposed utility model relates to the equipment of reservoirs with oil products and is intended for sampling oil from various levels along the height of the reservoir.

It is known that in the process of storing oil and oil products in a tank, the product is stratified into fractions along the height of the tank, as a result of which corresponding difficulties arise in determining the quality (ultimately, price) of a product. To overcome them, samplers of various designs are widely used (see, for example, the Saratov Joint-Stock Production and Commercial Open Society “Neftemash” “Equipment for Oil Tank Depots, Gas Stations, Refineries, NGDU.” Nomenclature catalog, p.31-33). In the general case, any of the known samplers contains a sampling pipe, divided into sections by three-way valves, allowing to take the required volume of liquid from each layer with subsequent mixing of these volumes to obtain an averaged sample, and the design differences between them are due to various specific requirements for their operation.

By the set of similar essential features, the sampler according to the utility model patent No. 43332, IPC F 16 T 1/00, 2004 may be closest to the proposed device.

The known sampler is characterized in that it contains sampling pipes located at different heights inside the tank, each of which is connected to shut-off valves, in this particular case made in the form of a multi-way valve, and the outlet of the distributor is equipped with a three-way valve, alternatively connecting it to the drain pipe and pumping a pump connected to the cavity of the tank. When the next sampling pipe is connected to the drain outlet (oil sampling channel) of the hydraulic distributor, it is preliminarily pumped by the fraction of oil that is to be sampled.

A disadvantage of the known sampler is associated with additional labor costs associated with the main work to determine the fractional composition of the oil product, leading to unnecessary loss of time and reducing the efficiency of obtaining final indicators. So, during the work it is required to take a sample from each level in a separate dish each time, send this sample to the laboratory, expect to receive the results of the analysis both for each sample separately, and for the entire volume of the tank as a whole, etc.

At the same time, the PLOT-3M densitometer is known, manufactured by Impuls-AVIA CJSC, Arzamas, Nizhny Novgorod Region, designed to determine product properties, for example, to measure the density and temperature of a liquid in a stream, as well as transmit measured values by a request from the outside to the measuring system or personal computer (see AUTP.414122.006RE manual). Since one of the applications of the known densitometer is automated

systems of accounting and storage of petroleum products at oil depots and gas stations, its use in an appropriate sampler with some refinement of the design of the latter can eliminate the above disadvantages.

The claimed utility model was tasked with reducing the labor costs of maintenance personnel in determining the fractional composition of the oil product in the tank, separately at each level by its height, and the average composition throughout the tank.

The problem is solved by the fact that a sampler for a tank with oil products is proposed, containing sample pipes located at different heights inside the tank, connected through shut-off valves to an oil sampling channel connected to the cavity of the tank through a pumping pump.

New in the proposed sampler is that a device for determining the properties of an oil product, for example, a density meter, is sequentially connected to the oil sampling channel between the stop valves and the pumping pump.

The technical result of the proposed device is to significantly reduce the time for a layered determination of the composition of the oil in the tank.

Figure 1 shows a fragment of a General view of the claimed device, Side view in section; figure 2 is a variant of the structural embodiment of valves; figure 3 is a hydraulic diagram of the device of figure 2.

The sampler (Figs. 1, 2) contains sampling pipes 2 located at different heights inside the tank 1, each connected by a separate pipeline to shut-off valves, which can be placed both inside the tank 1 and outside (in the latter case, access for maintenance is facilitated and repair).

The shutoff valves can be made in the form of a normally closed solenoid valve 3 mounted on each of the sampling pipes 2, as shown in Fig. 1, or in the form of a multi-way valve 4 with a rotary-movable shut-off element, as shown in Fig. 2 (structural embodiment inconsequentially).

The output sampling channel 5 is connected to the drain pipe 6 through a three-way valve 7, which is also connected to the cavity of the tank 1 through a check valve 8 and a priming pump 9 (Figs. 1, 3). Consistently in front of the three-way valve 7 in the sampling channel 5, a device 10 is installed that records the parameters of the oil product, electrically connected by the channel 11 to a remotely mounted measuring system (not shown in the drawing). In a specific embodiment of the design, the PLOT-3M densitometer, which is widely used in the domestic industry, serves as such a device.

In the embodiment of FIG. 3, to improve the usability of the claimed sampler, a stepper motor 12 with remote control over channel 13 was used as a drive of the hydrodistributor 3.

In the design of FIG. 1, solenoid valves 3 are also remotely controlled via a similar channel 13 (hydrodistributor analogues 3, defined by the general concept of “stop valves”).

Obviously, it is also advisable to control the operation of the pump 9 remotely via channel 14 (the drive of the pump 9 is not shown due to obviousness).

The device operates as follows.

To select a differentiated sample from the reservoir through channel 13 from the central control panel, the corresponding solenoid valve 3 (Fig. 1) is turned on or the control valve 4 is turned with a stepper motor 12 into the corresponding

position (Figure 3), as a result of which the sampling channel 5 through the densitometer 10 (in the general case, any other device for determining the properties of the oil product), a three-way valve 7 and a check valve 8 will be connected to the cavity of the tank 1. Next, the pump 9 is pumped through channel 5 oil product, removing from the channel 5 and densitometer 10 a sample of the previous measurement, and then (after filling the density meter from the corresponding level), the properties of the oil product of a new level are recorded.

From the described it is seen that for the operation of the claimed device, there is no need for a three-way valve 7, the crane itself has an auxiliary value.

The electric signals arriving through channel 11 to the central control unit, firstly, make it possible to differentially evaluate the layer-by-layer quality of the oil product in the tank and, secondly, during elementary processing they give an average indicator for the whole tank.

Claims (1)

A sampler for a tank with oil products, containing sampling tubes located at different heights inside the tank, connected through shut-off valves to an oil sampling channel connected to the cavity of the tank through a pumping pump, characterized in that a device for determining properties of the oil product.