SU260214A1 - - Google Patents

Description

The invention relates to the field of measuring the flow rate of a liquid and can be applied in the chemical, fuel, food and other sectors of the industry for contactless measurement of the flow rate of media that give a nuclear magnetic resonance (NMR) signal.

The known flow meters have insufficient accuracy, since they require precision, for the installation and measurement of the magnitude of the field gradient.

The proposed flow meter for increasing the accuracy of measurement is equipped with an inductor of a traveling magnetic field, carrying out the movement of a magnetic iol zone with a gradient along the direction of fluid motion, and a three-phase generator connected to it, to the output of which a frequency meter is connected.

On the fit. 1 Shows a block diagram of a flow meter; in fig. 2-distribution of the traveling 1 magnetic 1-FEL component directed along the channel axis at two successive points in time.

The measuring channel / is placed in a constant magnetic field of solenoid 2, equal to the resonance and directed along the axis of the channel, and in the radio frequency field perpendicular to it of coil 3 of the NMR sensor. The generator 4 feeds the modulation coil 5, which modulates a constant zero with an audio frequency Q, which is "necessary for observing the NMR signal. A three-phase generator 6 s and a three-phase inductor 7, which creates a magnetic field traveling along the channel.

The signal from the radio frequency amplifier 5 goes to the NMR detector 5, the output of which is connected in series with two phase detectors 9 and 10 and a zero-indicator //. A step 12 meter measures the frequency of the generator 6.

Using a traveling magnetic field, a FIELD zone is created with a gradient (see Fig. 21 moving along the channel axis, and the velocity of the V zone is determined only by the frequency f of the generator 6 feeding the inductor 7 and the POLAR division of the inductor

V, 2rf.

The velocity of the fluid is determined by the frequency of the generator 6, at which the null-1 indicator will show the ol.

Since the Jacques constant field of the solenoid is chosen to be equal to the resonant field, then at the points of transition of the zero-field through the zero, conditions will be provided for NMR observation, i.e., near the points a, b, a, b and so on.

the resonating zones of the fluid at the time of passage of these points through the radio frequency coil 3, the length of which is less so that it is chosen large enough to provide a sufficiently narrow resonant region, and should not be strictly financed in the future. Thus, there is no need for accurate installation and measurement of the magnitude of the gradient lol. The subject matter of the invention. A flowmeter based on the use of nuclear magnetic resonance, comprising a pipeline section, a magnetic system, a high-frequency coil, a generator and a magnetic resonance detector, characterized in that, in order to increase the measurement accuracy, it is equipped with a traveling magnetic field inductor the movement of a magnetic field zone with a gradient along the direction of motion of the fluid, and a three-phase generator connected to it, the output of which is connected to a frequency meter.

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