SU1506282A1 - Device for measuring liquid level - Google Patents

Abstract

This invention relates to a technique for measuring the level of a liquid in a vessel and can be used in various industries. The purpose of the invention is to improve the accuracy of measuring small level fluctuations. When measuring the level, the positron emitter 2 located above the liquid emits positrons, which annihilate in the surface layer of the liquid, and the gamma annihilation quanta are recorded by the detector 3 located above the emitter 2. When the liquid level 5 changes, the distance between the annihilation zone changes positron detector and 3 gamma quanta, which leads to a change in the readings of the measuring instrument, proportional to the change in the level of the liquid 5. 2 Il.

Description

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This invention relates to a technique for measuring the level of liquid in vessels and can be used in various industries,

The purpose of the invention is to improve the accuracy of measuring small oscillations.

FIG. 1 shows the block diagram of the device proposed in FIG. 2, the dependence of the device readings when measuring the level of liquid in a vessel (curve I corresponds to an open vessel, and curve II corresponds to a sealed one).

The device contains a measuring sensor 1, consisting of a coaxially arranged positron radiator 2, made for example of Na TL, Ge, and a detector 3 of annihilation gamma quanta, for example, a scintillation detector. A sensor 1 is connected to a signal processing unit 4 consisting of a pulse former and a scaler. Sensor 1 is located above the liquid level 5 located in vessel 6.

If it is necessary to measure the level of liquid 5 in hermetic vessels, sensor 1 is made of two parts, with the positron emitter 2 placed inside the vessel, and the detector is the 3rd external side.

The device works as follows.

The emitter 2 emits positrons in the direction of the controlled fluid 5. The emitted positrons are absorbed in the material of the sensor wall, in air and in liquid. The absorbed positrons annihilate with the electrons of the substance with the emission of mainly two gamma quanta with an energy of 0.511 MeV, which are isotropically distributed in directions. Some of the annihilation gamma quanta fall into the working volume of the detector 3, which leads to the appearance of an electrical signal the output connector of the detector 3 connected to the input of the pulse generator of the signal processing unit A. If the amplitude of this signal exceeds the amplitude of the noise of sensor 1, then an impulse appears at the output of the imager, which is recorded by a counting device.

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Thus, the readings of the counting device per unit time correspond to the intensity of the flux of annihilation gamma quanta recorded by the detector 3.

With an increase in the level of liquid 5, the distance between the positron annihilation zone and the gamma-ray detector 3 decreases, which leads to an increase in the readout meter readings proportional to the increase in the liquid level.

With the aid of the device shown in Fig. 1, the possibility of measuring the level of a liquid using a 5 μCi Na-based positron emitter emitting positrons with an edge spectrum energy of 0.54 MeV is being investigated.

The detector is a gamma-quanta 3, a si; an intrinsic detector of type 6931-17, the case of the measuring sensor 1 is made of steel with a thickness of mm, and the wall of the sensor 1 directed towards the liquid has a thickness of 01 mm. Sensor 1 is connected to signal processing unit 4, which consists of a BSA2-95 type former and a PS02-4eM type conversion instrument. The working fluid 5 uses water that fills a vessel with a diameter of 25 cm, height cm and wall thickness mm. The device allows to control the change in the level of the liquid in the range from 1 to 30 mm (in open vessels). The measurement error is +0.5 mm at a measurement time of 10 s,

Claims (1)

Invention Formula A device for measuring the level of a liquid, containing a radiation source, a detector located above the liquid level, and a signal processing unit, characterized in that, in order to increase the accuracy of measuring small level fluctuations, the radiation source is a positron emitter, and the radiation detector is gamma-ray receiver located above the source. And, rel. YU go 30 0 1 50 XJ