SU725053A1 - Device for measuring magnetization of fluidic media - Google Patents

Description

The invention relates to a technique for measuring the magnetic properties of fluids, iairimer for magnetizing liquids, and can be used for physical research in the chemical and petrochemical industries, as well as in geophysical and rheological studies.

A device for measuring the magnitude of liquids containing a scale and a traction solide based on measuring ion-motor forces is known. This device is not very sensitive and doesn’t provide an opportunity to estimate small magnetism variations.

Lime is a highly sensitive device using a vibration method, and in a non-movable iriem coil it is induced by a signal from a vibrating sample. In these devices it is difficult to research liquid media.

It is also known a device that contains a source of magnetic field, receiving coil, vibroprnvod. With its help, it is possible to measure and magnetization of the liquid contained in an oscillating container that also carries a measuring coil, the current in which leads to a magnetic moment that compensates for the signal from the sample. The disadvantage of this device is that

that it does not provide the ability to measure in a moving medium, and is subject to shear deformation.

The purpose of the invention is to expand the functional capabilities of the device by providing measurements of the magnetization of fluids in terms of shear deformation.

This is achieved by the fact that the device contains the source of the flow of the medium under study and the hydraulic line, and the coithainer in it is made in the form of a hermetic siiral channel connected to the source of the flow of the medium through the hydraulic main and consists of a magnetic core with a screw thread and a cylindrical body tightly covering the core.

The drawing shows the container and the adjacent device nodes.

Coithainer 1 is a cylindrical corus, which is connected to the measuring winding 2. The core 3 is sealed with spiral-shaped casing. Spiral channel formed by the gap between the bottom surface of the core winding and the inner and upper corius of the cores with. source of flow through the hydraulic line 4. Coiteyer is located inside the frame 5, on which the receiving coils 6 are located

and 7, combined in succession. The container and the coils are located in the magnetic field of the source 8 (iaprnmer, solenoid). The container is connected to the vibrator through the vibro-drive.

The device works as follows.

When the container 1 oscillates, in the receiving coils 6 and 7, an emf is induced, which is proportional to the magnetic moment of the container and entrapped by its environment. The medium through the hydraulic line 4 flows through the spiral channel of the container, whereby the measurement is carried out in the process of moving the medium. Depending on the viscosity and the flow rate of the medium, shear strains change in it, the effect of which is determined by the magnitude of the magnetization, which is measured by measuring the additional current in the measuring coil 2, necessary to compensate for changes in the signal in small coils.

Thus, the device preserves the accuracy of measurements of devices with an oscillating sample and makes it impossible to achieve the goal — the possibility of measuring the shear deformation of the medium under investigation.

Claims (2)

1. A device for measuring the magnetization of fluids, such as ferrofluids, containing a source of magnetic field, receiving coils, a vibrodrive and a container fixed to it to place a sample with a measuring coil wound on it, in order to ensure measurements of magnetization in shear deformation of the medium, it is equipped with a flow source of the medium under study and a hydromagnstral, the coiteiier is made in the form of a sealed bore duct, while entering it through the main line and the key a medium flow source. 2. The device on n. 1, characterized in that, in order to increase the measurement accuracy, the container is provided with a non-magnetic core with a screw thread and a cylindrical body tightly enclosing the core. Th Pump Busparnop