SU128203A1 - Instrument for measuring gas bubbles in a liquid - Google Patents

Description

There are known devices for determining the total amount of gas, including dissolved gases and gases that are in a liquid in the form of a bubble. However, it is impossible to separate the bubbles from the dissolved gases, and it is also impossible to establish a fast and continuous determination of the concentration of gas bubbles as a function of their size. n (R).

Optical devices used in individual cases with the application of magnification and photographing are cumbersome and time consuming.

The described device for measuring gas E. gas bubbles allows a quick and continuous determination of the concentration of gas bubbles as a function of their size, without the use of optical methods.

The drawing shows a block diagram of the device.

The device consists of the following main units: an ultrasonic generator /, a radiating electroacoustic transducer (hydrophone) 2, a receiving hydrophone 3, a preamplifier 4, a sun-heterodyne receiver 5 with double frequency conversion and a recording device 6.

The ultrasonic generator / serves to generate sinusoidal electrical oscillations and amplify them to a voltage of about 60 volts. Operating frequency range from 2 kHz to 200 kHz, which corresponds to resonant oasters of air bubbles in water with a radius of 0.17 SL1 to 0.1710.ad divided into 3 subranges.

During the automatic operation of the device, by changing the capacitance of the rotary capacitors, the working frequency is gradually changed.

The subband switching is performed using a Maltese cross controlling the relay system.

Capacitors and the Maltese cross are driven into rotation by the engine of the level recorder through a worm pair, chain-drives and

electromagnetic clutch. A tube voltmeter is used to record the output voltage.

Electroacoustic transducers 2 N 3 (radiating and receiving hydrophones) are made of barium titanate and have a spherical shape. To obtain a directional beam of sound rays, hydrophones -2 and 5 are placed at the foci of parabolic mirrors.

A preamplifier 4 for matching the impedance of the receiving hydrophone 3 with a long cable connecting it to the device. In the block, besides the preamplifier, there are two cathode repeaters and frequency filters.

Superheterodyne receiver 5 for signal amplification. It consists of attenuators, two mixers working on a balanced bridge circuit, C and LC local oscillators, amplifiers for intermediate frequencies and an output cascade. , The local oscillator is coupled to the generator 1 and is synchronously connected with it.

A recording device 6 is used to visually remove data using a lamp volt meter and record it on a chart recorder.

Subject invention

A device for measuring gas bubbles in a liquid, characterized in that, in order to simplify it, speed up the analysis and continuously record the measurement results, the device consists of a generator with a smoothly controlled frequency, a radiating and receiving hydrophone, an initial and superheterodyne amplifier with a recording voltmeter.