SU1663372A2 - Heat pipe - Google Patents

Abstract

The invention relates to heat engineering, is an improvement of the invention according to the author. St. N 119665. The purpose of the invention is to increase thermodynamic efficiency. The heat pipe contains connected vapor and condensate lines 1, 2 evaporator 3 and condenser 6. Evaporator 3 is equipped with a polymer-porous nozzle 4 with steam discharge channels 5. Channels 5 are made in the form of intersecting annular and longitudinal grooves. On the inner surface of the nozzle 4 are offset relative to the channels 5 intersecting annular and longitudinal grooves 11, 12. In this case, the walls of the nozzle 4 in cross section along the perimeter and height have equal thickness. This reduces the hydraulic resistance and improves the thermodynamic efficiency of the pipe as a whole. 3 il.

Description

The invention relates to heat engineering, is an improvement of the invention according to the author. St. No. 1196665, and can be used in heat transfer devices.

The purpose of the invention is to increase thermodynamic efficiency.

Figure 1 shows the heat pipe, a general view; figure 2 - section aa in figure 1; in FIG. 3, node I in FIG.

A heat pipe contains an evaporator 3 connected by a steam pipe 1 and a condensate pipe 2 with a capillary-porous nozzle 4 equipped with steam discharge channels 5, and a condenser 6 made, for example, in the form of coaxially mounted cylinders one in another, forming an annular cavity 7 in the form of intersecting annular and longitudinal grooves 8.9 located on the outer surface of the nozzle 4 and communicating with the annular steam collector 10. The inner surface of the insert

has channels made in the form of intersecting annular and longitudinal grooves 11, 12 located offset from the outer channels 5, so that the walls of the nozzle 4 in cross section have equal thickness along the perimeter and height.

The heat pipe is filled with coolant in an amount sufficient for complete impregnation, nozzle 4, filling of the condensate line 2, the end cavity 13, the center channel of the insert, and also for filling 0.1-0.3 volumes of the condenser and 0.1-0.5 volumes end cavity 14.

Heat pipe works as follows.

When heat load is applied to the evaporator 3, a difference in temperature and pressure occurs between the steam in the steam discharge channels 5 on the one hand, in the central channel of the nozzle 4 and the cavities 13 and 14 on the other hand. The nozzle layer separating them 4,

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impregnated with a heat carrier, in this case, plays the role of a thermal and hydraulic shutter, which makes it possible to create such a pressure difference. Due to the fact that the walls of the insert are made of equal thickness, its hydraulic resistance decreases. Under the action of the pressure difference, the coolant is displaced from the steam line 1, condenser b and fills the free part of the condensate line 2, part 13, the central channel of the nozzle A and partly of the cavity 14. to the evaporation zone mainly in the radial direction. It evaporates from the surface of the capillary-porous elements, tightly adjacent to the heated surface of the evaporator 3. The resulting steam through the annular and longitudinal grooves 8 and 9 enters the steam manifold 10. And from it through the steam line 1 - into

the condenser 6, where the heat is condensed and cooled to the receiver temperature.

Under the action of the pressure difference, the condensate formed is returned to the evaporator, closing the cycle of the heat pipe.

Thus, due to the developed evaporation surface, the shape of the vapor discharge channels and the uniform thickness of the capillary-porous packing, it is possible to increase the thermodynamic efficiency of the heat pipe.

Claims (1)

The invention formula Heat pipe according to ed. St. No. 1196665, characterized in that, in order to increase thermodynamic efficiency, the inner surface of the nozzle is shaped with intersecting longitudinal and transverse grooves, while the nozzle along the perimeter and along the length has the same thickness. Figz