SK822013A3 - Compact evaporator with closed circuit - Google Patents

Abstract

The compact closed-loop evaporator consists of a metal panel (1), which contains a set of drilled vertical holes (2), which are connected in the lower part by a drilled lower horizontal hole (3) and which are connected in the upper part by a drilled upper horizontal hole (4). . Between the end of the lower horizontal hole (3) and the end of the upper horizontal hole (4), a heat exchanger (5) with a return pipe (6) is arranged in the loop outside the metal panel (1). The lower horizontal opening (3) and the lower part of the horizontal openings (2) are filled with a liquid working medium, which is water or liquid hydrocarbons.

Description

Compact closed loop evaporator

Technical field

The present invention relates to a closed loop compact evaporator for heat removal from a source with which it is in close contact by means of heat pipes and a heat exchanger to a collection point. The invention is in the field of heating technology and heating systems.

BACKGROUND OF THE INVENTION

Conventionally manufactured back-loop heat pipes are formed by welding steel pipes into one functional unit. Such a design requires considerable precision of the individual components, a considerable amount of jigs with high positioning accuracy of the set of tubes, welding aggregates and the like. With each increasing number of joints, the risk of leakage increases, which is a limiting factor for pressure equipment affecting the functionality and service life of the equipment.

Computer cooling systems for cooling power parts of computers are also known which also use heat pipes of special construction, such as those described in European patent application EP 2 157391 A1, where the heat pipe comprises a semipermeable material membrane for separating the liquid component of the working medium from its gaseous component. .

It is further known to use a cooling system based on a heat pipe operating at high temperatures and pressures of a working medium as described in published international patent application WO 2011/121819. It is a two-chamber heat pipe of relatively complex construction.

The above-described designs of heat pipe cooling systems and the complex manufacture of the evaporators themselves have evoked the creation of a heat pipe evaporator that is easy to manufacture. As a result of this effort, a closed loop compact evaporator for heat removal from a source with which it is in close contact by means of heat pipes and a heat exchanger to the offtake point of the present invention is described.

SUMMARY OF THE INVENTION

The above-mentioned drawbacks are eliminated by the design of a closed-loop compact evaporator to take heat from the source with which it is in close contact by means of heat pipes and heat exchanger to the collection point. The invention is based on the fact that the technical solution describes a heat recovery device. The main member of the device is a metal panel which, in its internal configuration, comprises a plurality of vertically oriented openings together with an upper and a lower horizontal opening. The metal panel may preferably be made of steel or cast iron. Other suitable materials are not excluded. The metal panel can also be provided with anchoring elements. The holes may be holes formed, for example, by drilling or they may be internal channels formed when casting the panel. The lower horizontal opening and / or the upper horizontal opening can also be made blind. If the lower horizontal opening and / or the upper horizontal opening is continuous, then its inoperative openings are provided with a closure. The vertically disposed openings are filled with a precisely specified amount of fill, which is a liquid working medium. This working medium is also contained in the lower horizontal opening. The liquid working medium may be water and liquid hydrocarbons such as ethanol and others. The array of vertically disposed apertures together with the upper horizontally oriented aperture form an exhaust portion of the heat pipes. The device operates with heat transfer by changing the phase of the substance from liquid to steam in hermetically sealed tubes, in this case holes, of heat pipes by heating the working medium by means of a thermo siphon effect. During the operation of the device, heat is taken from the heat source and subsequently transferred through the heat pipes, the energy is transferred through the heat exchanger to the offtake point. Subsequently, the working medium is cooled and condensate flows back into the heat pipes through the return line.

The advantages of the device are apparent from the external effects. The effects are in particular that the circulation of the liquid working medium is ensured without the circulation pump by means of a thermo-siphon effect. By using heat tubes in the apparatus, the apparatus itself has a low weight, the apparatus has a rapid thermal effect and low cost to manufacture and maintain the heat tube. The device has a long service life and does not pollute the environment.

BRIEF DESCRIPTION OF THE DRAWINGS

The construction of a closed-loop compact evaporator for heat removal from a source with which it is in close contact by means of heat pipes is shown in the accompanying drawings, in which FIG. 1 shows the closed loop evaporator in three views. Fig. 2 is an axonometric view of an overall closed loop evaporator assembly.

DETAILED DESCRIPTION OF THE INVENTION

It is to be understood that individual embodiments of the invention are presented for illustration and not as limitations of the technical solutions. Those skilled in the art will find or be able to ascertain using no more than routine experimentation many equivalents to the specific embodiments of the invention described herein. Such equivalents will also fall within the scope of the following claims. For those skilled in the art, the dimensioning of such a device and the appropriate selection of its materials and construction arrangements cannot be a problem, therefore these features have not been solved in detail.

It is also understood that there may be more modifications made according to the spirit of the invention.

Example 1

The present embodiment of a closed loop compact evaporator for taking heat from the walls of a high temperature potential source with which it is in close contact by means of the heat pipes of the invention will be presented in this example by the following description and shown in FIG. 1 and 2. The main member of the compact evaporator is a metal panel 1 which, in its internal configuration, comprises a plurality of vertically oriented openings 2 together with an upper and a lower horizontal opening 4, 3. The metal panel 1 is made of steel. The metal panel is also provided with anchoring elements (not shown). The vertical holes 2, the upper and lower horizontal holes 4, 3 in this case are blind drilled holes. The vertically arranged openings 2 are filled with a precisely specified amount of filling, which is a liquid working medium in this case water. This liquid working medium is also contained in the lower horizontal opening 3. The set of vertically arranged openings 2 together with the upper horizontally oriented opening 4 form an exhaust part of the heat pipes. Subsequently, the working medium is cooled in the heat exchanger 5 and the condensate flows back through the return line 6 into the heat pipes in the metal panel 1 again.

In an alternative embodiment, if the lower horizontal opening 3 and the upper horizontal opening 4 are continuous, then its inoperative outlets are provided with a closure (not shown).

Example 2

The present solution of a closed loop compact evaporator for removing heat from the walls of a medium-high temperature potential source with which it is in close contact by means of the heat pipes of the invention will be presented in this example in an alternative arrangement by the following description and shown in FIG. 1. The main member of the compact evaporator is a metal panel 1 which, in its internal configuration, comprises a plurality of vertically oriented openings 2 together with an upper and a lower horizontal opening 4, 3. The metal panel 1 is of cast iron. The metal panel is also provided with anchoring elements (not shown). In this case, the vertical openings 2, the upper and lower horizontal openings 4, 3 are the internal channels formed during the casting of the panel 6. The vertically arranged openings 2 are filled with a precisely determined amount of fill, which is a liquid working medium in this case, a liquid hydrocarbon - ethanol. This liquid working medium is also contained in the lower horizontal opening 3. The set of vertically arranged openings 2 together with the upper horizontally oriented opening 4 form an exhaust part of the heat pipes. Subsequently, the working medium is cooled in the heat exchanger 5 and the condensate flows back through the return line 6 into the heat pipes in the metal panel J again.

Industrial usability

The closed-loop compact evaporator to remove heat from the source with which it is in close contact according to the invention is applicable to all medium and high potential waste heat production plants.

Claims (10)

Compact closed-loop evaporator, characterized in that it consists of a metal panel (1) comprising a set of vertical openings (2) which are connected at the bottom by a lower horizontal opening (3) and which are connected at the top by a horizontal top an opening (4); between the end of the lower horizontal opening (3) and the end of the upper horizontal opening (4), a heat exchanger (5) with a return line (6) is arranged outside the metal panel (1) in the loop; the lower horizontal opening (3) and the lower part of the horizontal openings (2) are filled with a liquid working medium. The closed loop compact evaporator according to claim 1, characterized in that the lower horizontal opening (3) and / or the upper horizontal opening (4) is blind. 3. The closed-loop compact evaporator according to claim 1, characterized in that the lower horizontal opening (3) and / or the upper horizontal opening (4) is continuous and is provided with at least one closure. wdtaUz 4. The closed-loop compact evaporator according to claim 1, characterized in that the metal panel (1) is provided with anchoring elements. A closed loop evaporator according to claim 1, characterized in that the vertical openings (2), the lower horizontal opening (3) and the upper horizontal opening (4) are holes. v nslifobu / 6. The closed-loop compact evaporator according to claim 1, characterized in that the vertical openings (2), the lower horizontal opening (3) and the upper horizontal opening (4) are cast channels. 7. The closed-loop compact evaporator according to claim 1, wherein the liquid working medium is water. 8. The closed-loop compact evaporator according to claim 1, wherein the liquid working medium is liquid hydrocarbons. 9. The closed-loop compact evaporator according to claim 1, characterized in that the metal panel (1) is made of steel. 10. The closed-loop compact evaporator according to claim 1, characterized in that the metal panel (1) is made of cast iron.