SU782689A1 - Cylindrical linear induction pump - Google Patents

Description

(54) CYLINDRICAL LINEAR INDUCTION PUMP

The invention relates to the field of magnetohydrodynamic (MHD) technology, in particular, to the improvement of linear induction electromagnetic pumps designed for pumping liquid-to-metal heat transfer fluids in co-turbulent nuclear power plants with fast neutron reactors, research liquid metal circuits, metallurgy, as well as other technologists. goals.

There are a number of constructions of cylindrical induction pumps 1, the main components of which are a linear inductor containing a three-phase winding and an annular channel, abrasive ioaxially located with thin-walled cylinders.

The winding of the inductor creates a field running along the channel, when interacting 20 of which with currents induced in the liquid metal, electromagnetic forces appear that ensure the displacement of the liquid metal in the pump channel. To increase the pressure developed by the pump, and its efficiency in a number of structures, the installation of electrically conductive partitions in the channel core is used.

Known linear electromagnetic pump 2, containing the inductor longitudinally 30

a traveling field, the channel of which is divided by electrically conductive partitions into elementary channels provided at the outlet for equalizing the pressure between them by throttling bodies and their control system. The disadvantage of this design is the complexity of the device partitions, providing / tightness of adjacent elementary channels, the complexity of the device throttling bodies. The introduction of throttling organs into the flow path leads to an increase in its hydraulic resistance and a decrease in the energy indices of the pump.

The design of a cylindrical linear induction pump 3 is known, in which the annular channel is provided with longitudinal electrically conducting partitions of a material having a higher electrical conductivity than the pumped metal. Due to the EMF induced in them by a safe field, it is possible to increase the pressure developed by the pump. This electromagnetic pump is the closest in technical essence to the invention.

Claims (3)

The disadvantage of this device is that the design of the channel with baffles used in it increases the pressure, but does not eliminate the fluctuations of the flow rate and pressure for large parameters of the electromagnetic interaction. ,,. .7 In linear induction tfacocax, with magnetic Reyolds numbers, the cKOpocira profile of the conductive liquid KOST becomes non-uniform; As a result, the pump is unstable, there are fluctuations of downflow and flow, which leads to the appearance of significant vibrations / circuit and is unacceptable during operation of pumps, for example, in the main circuits of fast reactors. The aim of the invention is to increase the efficiency by eliminating the instability of the pump operation, which is expressed in the presence of pressure and flow fluctuations for large parameters of the electromagnetic interaction. The goal is achieved by the fact that in the proposed cylindrical linear induction bnnbmnosose containing an inductor with a Tip ex MIOTKOU and a LI: neins and wp of an optics with an electrically conductive box of the first city, which are made in the form of discretely located elements of a multi-input vinous conductor of the first city, which are made in the form of discretely located elements of a multi-input vinous conductor of the first city, which are made in the form of discretely located elements of a multiple-input vinous ring with a slope tangent equal to the ratio of the average length to surround the channel to the active Lane of the inductor .V In FIG. 1 shows a longitudinal section of an electromagnetic pump. The pump contains an inductor, on the active length g,. KoTOipom is laid threefaz.azna, -rbmotka 1 (Ra - Zyslo pairs of poles, t - pole division) and directly connected channel of circular section 2, supplying iyrSLAYMUI le "1 oprb1VoD ShyMy peRbrodkam (and 3. Usbybakyrn, I, ChaPe, I, I, I, I, and I, I, I, I, I, I) .5. In Fig. 3, according to IasiM, the unwrapping of a kayal with a usaging junction direction: partitions 3. When the pump is turned on, the inductor winding creates a running field, under the action of which, at the pumped metal, it acts as a drive in the POLY dive circuit, along the channel OSI. according to the proposed scheme Each liquid element, moving from the inlet to the pump outlet in the direction indicated by the arrows in Fig. 3, passes through all points around the channel perimeter, which will ensure the equalization of speed. restore the uniformity of the velocity profile around the channel perimeter, reduce the flow rate to pressure, and operate the pump at higher technical and economic indicators. Claims of Invention: A cylindrical linear induction pump comprising an inductor with a three-phase winding and a linear annular channel with an elecrogram of gavregaroki, characterized in that, in order to increase efficiency by eliminating the instability of pump operation, which is expressed in varying flow rate and pressurized at large parameters, the flow rate of the pump can be increased by eliminating the instability of pump operation, expressed in oscillating flow and pressure at large parameters. Electrical conduction of the Thy partition partitions in the form of Discrete elements of a multiple helix with a tangent of the angle of inclination least equal to the ratio of the mean circumferential length to channel the active dlyyv inductor. , - - .- - ... . g.; - .. ,,:, / -; ; - V, rf, 4. I -i; Sources of information taken into account in the examination: 1. G. Baranov; Glukhikh V.A., Kirillov I.R. Calculation and design of induction MHD-mashay with zhidkometallym working body M., Atomizdat, 1978. 2. USSR author's certificate number 436422, cl. And 02 N 4/20, 1974. 3.ABTOpiCKoe certificate of the USSR No. 175824, cl. H 02 N 4/20, 1964 (prototype). f / / / XX  (2 X x j "j A I j