SU1000727A1 - Electrohydraulic heat pipe - Google Patents

Description

(54) ELECTROHYDRODINAMICHBSKAYA HEAT

TRUMPET

Claims (3)

This invention relates to heat transfer devices,. A heat pipe is known, comprising a case connected to one pole of the current source and a hollow insert placed inside the case, n installed on one of the ends and connected to the other pole of the source of current. G13 This tube has a relatively narrow range of control of heat transfer characteristics, It does not provide an effect of the electric field on the characteristics of the coolant (such as, for example, the effective viscosity in the body sections where the heat is brought in. The heat pipe is also known, containing The body and the insert placed along its axis are provided with perforated electrodes, the space between which is filled with particles with electrical resistivity higher than South. 21 The disadvantage of this pipe is 3i that it provides only two-position regulation. The proposed is an electrohydrodynamic heat pipe containing a wick placed on the inner surface of the body in the form of grid layers with an increasing cell size in the direction from the wall of the building. sa to the steam channel, wherein the mesh made of electrically conductive material and adjacent layers of grids are connected to opposite poles source. The disadvantage of this pipe is a relatively narrow area of use, which is due to the inability to control the characteristic tick of the wick using an electric field. The purpose of the invention is to expand the field of application of the pipe by adjusting the characteristics of the wick. This goal is achieved by the fact that in an electrohydrodynamic heat pipe containing a wick in the form of layers of mesh with enlarged cell size in the direction from the shell wall to the steam pipe, placed on the inner surface of the body, the grids are made of electrically conductive material unlike the current source, the space between the layers of the grids is filled with particles with a resistivity greater than 10 Ω-m. In addition, the particles enclosed between adjacent layers of the grids are made of different diameters, increasing in the direction of the vapor channel. The drawing schematically shows a heat pipe, a longitudinal section. The pipe contains a fillet located on the inner surface of the housing 1 .2 in the form of layers of grids 3 with an increasing cell size in the direction from the wall of the housing 1 to the steam channel 2, and the grids 3 are made of electrically conductive material and the adjacent layers of grids 3 are connected to equal poles current source. The space between the layers of the grids 3 is filled with particles 4 with a specific electrical resistance greater than OM-m, and the particle diameter of the prisoners between the adjacent layers of the grids 3 increases in the direction of the steam channel 2. The arrows indicate the supply and removal of heat in parts of the body 1 The electrohydrodynamic heat pipe operates as follows. When heat is supplied and removed at the corresponding 1X sections, heat and mass transfer is carried out through a pipe with a change in the state of aggregation of the heat transfer medium. When a high voltage is applied to the grids 3, the particles 4 enclosed between them form structures oriented along the field lines of the electric field. By changing the magnitude of the applied voltage, it is possible to significantly change the capillary characteristics of wick 2 and, therefore, to control the heat transfer characteristics of the heat pipe within wide limits. The additional effect of the electric field in this case is associated with its effect on the effective viscosity of the heat transfer medium inside the wick 2. Thus, the filling of the space between the layers of the grids with 3 particles that have a specific electrical density. The resistance is higher than 10 Ohm-m, it allows to expand the field of application of the heat pipe by providing control of the characteristics of wick 2. Claim 1. Electro-hydrodynamic heat pipe containing a wick placed on the inner surface of the casing in the form of layers of grids with an increasing cell size in the direction from the steam channel, where the grids are made of electrically conductive material and adjacent layers of grids are connected to opposite poles of the current source, characterized in that, in order to expand the application of the pipe by adjusting the characteristics of the wick, the space between the layers of the grids is filled with particles with a resistivity greater than. 2. The pipe according to claim 1, differs from the fact that the particles enclosed between adjacent layers of the grids are made of different diameters, increasing in the direction of the steam channel. Sources of information, taken into account during the examination 1. The author's certificate of the USSR 536389, cl. F 28 D 15/00, 1974. 2. USSR author's certificate according to application code 2960061, cl. F 28 D 15/00, 3. USSR author's certificate number 883644, cl. F 2B D 15 / 0.0, 1979.