KR20140134526A - High efficiency energy generation - Google Patents

Abstract

The present invention relates to a high-efficiency energy generating apparatus capable of minimizing a heat loss portion of a heating means and thereby improving heat energy efficiency, and a liquid working fluid 20 having a high thermal conductivity filled in a sealed tube at a pressure level of 100-300 pounds, The heating circulation pipe 10 is formed in such a manner that the working fluid 20 is instantaneously heated and vaporized and diffused to the inside of the pipe to generate a rapid flow of rapid conduction heat, The heating circulation pipe 10 is arranged in such a manner that heat transfer and heat circulation can be generated at the same time as the heating circulation pipe 10 is extended in the transverse direction in the longitudinal direction of the pipe and in the longitudinal direction adjacent to the pipe, The heating water 40 or the heating steam 40 which is the heating medium of the ordinary heating means is discharged from the inlet 30a of the heating arrangement pipe 30 to the outlet 30b (Reaction) area is extended around the heating arrangement pipe 30 to be circulated through the heating arrangement pipe 30 so that the working fluid 20 in the interior is reacted by the heat transfer from the heating arrangement pipe 30, So that the thermal efficiency of the heating arrangement tube 30 is increased while the thermal conduction in the longitudinal direction and the thermal circulation in the horizontal direction are repeatedly circulated and repeatedly operated.

Description

[0001] The present invention relates to a high efficiency energy generation device,

The present invention relates to a high-efficiency energy generating apparatus capable of minimizing a heat loss portion of a heating means and thereby improving heat energy efficiency. More specifically, the present invention relates to a high- The heating circulation pipe arranged around the heating arrangement pipe reacts with the working fluid inside the heating arrangement pipe to rapidly generate the heat of the rapid flow so that the thermal conductivity in the longitudinal direction And the thermal cycling in the horizontal direction together with the cyclic operation of the heat exchanger is repeatedly performed, thereby improving the heat energy efficiency of the heating arrangement tube remarkably.

As is well known, in order to solve problems such as excessive consumption of fuel, heating and environmental pollution caused by heating time generated in a direct heating method such as oil, gas and electric boiler, heat medium type drier, Boilers, etc. have been presented in various ways.

In this type of heating medium, the heat exchanger required in the boiler or the hot air blower main body is fixed, and a heat medium having excellent thermal conductivity, heat resistance and thermal stability is put in, and then the vacuum is sealed. And the heat is transferred to a heating medium such as water or gas to generate heating water, hot water, steam or the like of industrial use, commercial use, home use, etc., or a device for generating hot hot wind.

These heat mediums have been disclosed as special fluids such as Freon, ammonia, methanol, or thermia oil. However, these media are very expensive, have low efficiency due to low heat conduction, and can not transfer heat away to isothermal. The cost of the system can not be overcome.

Particularly, in the case of a dryer or a hot air conditioner which requires a higher temperature than a heating purpose, it is necessary to raise the temperature to a higher temperature than normal heating in a short time, and development of such a heating medium is an urgent matter.

The present invention has been developed in view of the above circumstances, and it is an object of the present invention to provide a high efficiency energy generating device of a new operating principle that can reduce the energy cost by minimizing the heat loss portion of the existing energy law, .

In other words, it is basically made of materials of each medium requiring conventional heating, and it has a different thermal conductivity of heat conduction, and the higher the thermal conductivity, the less energy consumed for heating or icing, The present invention is directed to a high efficiency energy generating device capable of drastically reducing thermal energy loss and dramatically reducing energy consumption.

The high efficiency energy generating device of the present invention which can achieve the above object is a device for generating a high-efficiency working fluid having a high thermal conductivity filled in a pipe at a pressure level of 100-300 pounds in a sealed tube, The heating circulation pipe is formed in a horizontal direction, which is a longitudinal direction of the pipe, and a pipe extending in the longitudinal direction of the pipe, So that heat transfer and heat circulation can be generated at the same time as the heat radiation area increases.

Particularly, the heating circulation pipe is filled with a freon gas system having a low breaking point where the working fluid in the pipe is vaporized. When the external heat shock is transmitted and continuous collision occurs, the latent heat, self-conduction heat, The unit area to be radiated is increased so that the circulation operation is performed, and a coil (spiral) shape, a zigzag shape, or a certain type of partition wall or vortex shape which can increase the unit area is selectively applied.

The high efficiency energy generating apparatus of the present invention is characterized in that the heating circulation pipe constructed as described above is installed in the vicinity of the heating arrangement pipe in which the heating water or the heating steam which is the heating medium of the conventional heating means is circulated from the inlet side to the outlet side of the heating arrangement tube, (Reaction) area, and the internal working fluid is reacted by the heat transfer from the heating arrangement tube to rapidly generate heat of a rapid flow, so that thermal conduction in the longitudinal direction and thermal cycling in the lateral direction So that the thermal efficiency of the heating arrangement tube is increased.

According to the high-efficiency energy generating apparatus of the present invention, heating water or heating steam, which is a heating medium of a conventional heating means, is extended from the inlet port to the outlet port of the heating arrangement pipe, The heating circulation pipe arranged around the pipe reacts with the internal working fluid to rapidly generate heat of rapid flow, so that the heat transfer in the longitudinal direction and the heat circulation in the transverse direction are repeatedly circulated together, The efficiency can be remarkably improved.

Particularly, in the high-efficiency energy generating apparatus according to the present invention, even if a small heat is applied, a working fluid, which is a superheat conductor medium in a sealed copper tube, instantaneously causes a phase change of a gas and a liquid, The heating heat circulated through the arrayed heating circulation tube can be discharged to the periphery and the heat loss of the surrounding heating tube can be reduced, thereby providing an operation effect that can increase the overall thermal energy efficiency structurally. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a usage state of a high efficiency energy generating apparatus according to the present invention, schematically showing an installation state thereof.
FIG. 2A to FIG. 2D are preferred structural diagrams of a heating-down tube applied to the high-efficiency energy generating device of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

First, the heating circulation pipe 10, which is a core constituent of the high-efficiency energy generating apparatus according to the present invention, includes a heating arrangement tube (not shown) for generating heat through a heating medium of a heating means such as a conventional boiler, The working fluid 20 which can be easily vaporized by being filled with a relatively low pressure and constant pressure inside due to the thermal shock transmitted from the heating water 40 or the heating steam 40 of the heat exchanger 30 is reacted, And the thermal circulation in the vertical direction and the thermal circulation in the vertical direction together with the thermal conduction in the longitudinal direction of the heating circulation pipe 10 itself are repeatedly circulated together and the thermal efficiency of the heating arrangement tube 30 is increased .

The latent heat of the working fluid 20 generated in the heating circulation pipe 10 refers to the amount of heat required for the state change without changing the temperature of the material. When the water is used as a reference, the water (liquid) , And when the water vapor at 100 ° C is changed to water at 100 ° C, a latent heat of 539 ° C is generated. Also note that specific heat is the amount of heat required to raise the temperature of 1 g of a substance by 1 ° C or 1K.

The heating circulation pipe 10 in which the operation principle of the heat pipe is generated by dramatically simplifying the conventional complicated heat pipe (instantaneous superconducting heat pipe) applied to the present invention has a pressure level of 100-300 pounds inside the sealed pipe The working fluid 20 which is filled with the liquid fluid 20 having a high thermal conductivity is reacted to the thermal shock transmitted from the outside and the working fluid 20 which is low in breaking due to continuous collision is instantaneously heated and vaporized and diffused into the pipe, The heating circulation pipe 10 is extended in the longitudinal direction of the pipe and in the longitudinal direction adjacent to the pipe so that the heat radiation area is increased and the heat transfer and the heat circulation are simultaneously performed at the same time It is preferable to arrange them so that they can be generated.

Particularly, the heating circulation pipe 10 is filled with the CFC gas having a low breaking point where the working fluid 20 in the pipe is vaporized. When the external heat shock is transmitted and continuous collision occurs, the latent heat and the self- The unit area of the heat dissipating unit is increased so as to perform a circulation operation in which heat and specific heat are generated. As shown in the structural drawings of the various embodiments of FIGS. 2 to 2D, Any form that can increase the unit area of the vortex shape can be selectively applied.

1, the heating water 40 or the heating steam 40, which is the heating medium of a conventional heating means, is introduced into the heating arrangement pipe (not shown) (Reaction) area is extended around the heating arrangement pipe 30 through which the refrigerant is circulated from the inlet 30a to the outlet 30b of the evaporator 30 by heat transfer from the heating arrangement 30 The internal working fluid 20 is reacted to generate heat of rapid flow rapidly so that heat transfer in the longitudinal direction and heat transfer in the transverse direction are repeatedly circulated together to increase the heat efficiency of the heating arrangement tube 30 Lt; / RTI >

The high efficiency energy generating apparatus of the present invention is a simplified structure that easily collides with a thermal shock due to heat transfer in the vicinity of a heating circulation pipe 10 to which a heating pipe principle of a closed vacuum state is applied and is vaporized to generate heat energy The working fluid 20 which is a heat transfer medium is filled at a relatively low reaction gas pressure of 100-300 pounds and the inlet 30a of the heating arrangement tube 30 and the outlet 30b of the heating arrangement tube 30, (Endothermic) and condensation (heat radiation) are repeated in the heat conduction pipe by the heating water or the heating steam 40 circulating through the heating arrangement pipe 30, The heat transfer is instantaneous (about 3 seconds per M: about 500 times more than platinum, about 1,300 times more than copper, about 2,000 times more than common hot water tube), and thermal conductivity is more than 98.5% In and to form an effective heat transfer medium means.

That is, the heating circulation pipe 10 applied to the present invention is a heating medium circulating in the vacuum state (which may not necessarily maintain a vacuum state in some cases) as a working fluid 20 of gas or liquid propane gas series The heating circulation pipe 10 is instantaneously vaporized, and at the same time, when the heat transfer from the heating arrangement pipe 30, which is an external heat source, is transmitted to the heating circulation pipe 10, Thereby improving the thermal efficiency of the surrounding heating tube 30 while dissipating the heat to the outside by diffusing into the heating circulation tube 10 which is configured to generate the overall heat circulation as well as the basic heat transfer Allows heat loss to be structurally reduced.

10: Heating arrangement pipe (boiler pipe) 20: Heating water (heating steam)
30: heating circulation tube 30a: inlet
30b: Outlet port 40: Working fluid

Claims (3)

The liquid working fluid 20 having a high thermal conductivity filled in the sealed tube at a pressure level of 100-300 pounds is reacted to the thermal shock transmitted from the outside, And the heating circulation pipe 10 is extended in the longitudinal direction of the pipe and in the longitudinal direction adjacent to the pipe. The heating circulation pipe 10, And the heat transfer area and the heat circulation can be generated at the same time as the heat radiation area increases.
The heating circulation pipe 10 is filled with a refrigerant gas having a low breaking point at which the working fluid 20 in the pipe is vaporized. When the external heat shock is transmitted to the heating circulation pipe 10, if the continuous collision occurs, the latent heat and self- And the unit area of the heat dissipating unit is increased so as to perform the circulation operation in which the heat and the specific heat are generated, and the unit area of the coil (spiral), zigzag, Wherein the energy-generating unit is applied to the high-efficiency energy generating apparatus.
The heating circulation pipe 10 according to the first or second aspect of the present invention is characterized in that the heating water 40 or the heating steam 40 which is the heating medium of the conventional heating means is discharged from the inlet 30a side of the heating arrangement pipe 30, (Reaction area) is extended around the heating arrangement pipe 30 through which the working fluid 20 is circulated through the heating arrangement pipe 30, so that the internal working fluid 20 is reacted by the heat transfer from the heating arrangement pipe 30 So that the thermal efficiency of the heating arrangement pipe (30) is increased while circulating the heat in the longitudinal direction together with the heat circulation in the lateral direction repeatedly. Generating device.

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