SU877262A1 - Magnetic heat pump - Google Patents

Description

(5.4) MAGNETIC HEAT PUMP

Claims (2)

The invention relates to power plant engineering, in particular, to designs of heat pumps for refrigeration devices based on the use of a magnetocaloric effect and intended for up to. ultralow temperatures of the order of the tenth and hundredths of degrees Kelvin. The magnetic heat, soybean, is known, in which the magnetocaloric effect is realized in the process of uniform rotational movement of the working fluid in heat transfer media arranged in two solid-optical tanks (internal and external) with respect to the system of two permanent magnets. The working body is made in the form of a porous rim of a ca. During operation of the device, the coolant of the inner tank is heated, and the outer one is cooled with D. The disadvantages of this device are the structural and technological complexity of manufacturing the wheel (working fluid), as well as the need to create a sealing system. Also known is a magnetic heat pump containing zones of high and low intensity of the magnetic field, a closed working channel with a working body placed in it - a magnet, made in the form of powder, and a channel for supplying and discharging coolants. Circulation of the working fluid through the working channel is carried out using an inductor (inductors}, which reduces the leakage of coolants in the supply and discharge channels. However, this pump is characterized by low pumping efficiency due to insufficient heat exchange. The purpose of the invention is to increase the heat pumping efficiency. The goal is achieved by the fact that in a magnetic pump containing zones of high and low intensity magnetic field, there is a closed working channel with a working channel placed in it A magnet body, made in the form of powder, and a coolant supply and discharge channel, coolant supply and discharge channels are located perpendicular to the working channel. The drawing shows a magnetic pump.The pump contains a working channel 1 made of a nonmagnetic material containing a working body 2, made in the form of powder. A permanent magnet 3 is made covering the portion of the closed working channel 1 between channels 4.5 and 6.7, through which heat transfer fluids are pumped. Channels L and 6 are the input channels of the coolant, and channels 5 and 7 are higher. The circulation of the working fluid is carried out by the inductor 8 or by any known stimulator of the flow of the working fluid. A hatch 9 is provided for loading and unloading the working fluid. The pump operates as follows. The working body 2 enters the effective heat exchange zone located in the section of channel 1 between channels 4 and 5, in which it is under the action of inductor 8 moving first in an ascending and then in a constant magnetic field. Magnetizing in this area, the working fluid gives off heat transfer fluids. Similarly, the working fluid, moving in the next zone of efficient heat transfer, located between channels b and 7, cools the other. Heat carrier. The design of the proposed pump provides an increase in the speed of movement of the working medium over the working channel without increasing the speed of movement of the heat transfer media, which increases the efficiency of heat transfer. In addition, the perpendicular arrangement of the channels (working tap and coolant supply) allows creating a cascade of such devices with a more convenient layout both in terms of coolant flow rate and cooling capacity. To form a cascade in terms of flow, the high and low intensity zones of the magnetic field are alternated around the perimeter of the working channel. Cascade According to the cooling capacity, it is realized by the series connection of the input and output channels of the coolants of individual working circuits. Claims of Invention Magnetic heat pump comprising zones of high and low tension of a magnetic field, a closed working channel with a working body placed in it - a magnet, made in the form of powder, and channels for supplying and discharging coolants, in order to increase efficiency heat pumping, kayals for the supply and removal of coolants are located perpendicular to the working channel. Sources of information taken into account in the examination. 1. US patent number 4033734, CP. 62-3, pub. 1978 2. USSR author's certificate for application number 2734652 / 23-25, cl. F 25 B 21/00, 03/23/79 (prototype).