KR20050018168A - Apparatus for vaporization - Google Patents

Abstract

PURPOSE: An evaporator is provided to protect the surrounding parts safely by decreasing temperature of vaporized high pressure gas, to prevent damage or corrosion of the part by restricting icing, and to reduce energy consumption by extending the life span and increasing thermal efficiency. CONSTITUTION: An evaporator(100) is composed of a liquid inlet(10) flowing liquefied gas in, a sealed housing member(20) having a bottom plate with a penetration hole, an evaporation pipe stored in the housing member and composed of an enclosed high pressure vessel, an aluminum pipe(40) contained in the evaporation pipe and communicated with the liquid inlet, a band heater(50) contacted to the outer surface of the evaporation pipe to supply heat to the aluminum pipe continuously, and a gas discharge port(60) protruded from the bottom plate through the penetration hole and communicated with the outside of the housing member. High pressure gas liquid is injected from the liquid inlet through the aluminum pipe, and evaporated and discharged through the discharge port by receiving heat from the band heater.

Description

Vaporizer {Apparatus for vaporization}

The present invention relates to a vaporizer, and more particularly to a vaporizer that vaporizes a high-pressure liquid gas.

In general, in the form of consuming various high pressure gases, the storage is in the liquid state and the consumption is in the gas state in most cases. Therefore, when a relatively large amount of high pressure gas is consumed, a vaporizer (evaporator) is required to vaporize the liquid.

This conventional vaporizer is a type of heat exchanger in which heat is exchanged through hot water or steam metal tubes to evaporate liquid. In some high-pressure gases, heat in the atmosphere may be used. The main high pressure gas using the vaporizer is liquid oxygen, liquid nitrogen, liquefied carbon dioxide, LPG, ammonia, chlorine and LNG.

Among them, vaporizers using hot water or steam, such as liquid oxygen or LNG, having low boiling point, are prone to freezing and are difficult to use in cold climates. There was a short problem. In order to prevent such freezing, the vaporizer using the atmospheric temperature has to adopt a stirring method for heat transfer, so the size of the vaporizer is very large compared to the unit vaporization amount.

In addition, liquefied carbonic acid gas or LPG is introduced into the vaporizer under the saturation pressure of the inflow liquid to exchange heat. However, this method also has a problem that heat loss is high because the temperature of the heat medium and the vaporized gas is high. In addition, this high heat has a disadvantage in that there are many restrictions on the use of peripheral devices connected to the carburetor. For example, the outlet of the vaporization gas is equipped with a pressure regulator, but the diaphragm and the valve seat, which are the main parts of the pressure regulator, are rubber materials, which have a disadvantage that they cannot be used at temperatures above 80 ° C. In addition, the carburetor is usually equipped with a safety valve, the valve seat of the safety valve is a Teflon material has a disadvantage in that it can not be used in strength at temperatures above 180 ℃.

In addition, most of the method of using hot water as a fruit is a storage type, and a heater is inserted into a hot water tank entering a heat exchanger to heat the water to increase the temperature of the water, or the evaporation capacity is lowered due to the contamination of the heat medium, Due to breakage of the heat exchanger, there was a disadvantage that an accident occurred due to leakage of high pressure gas or leakage of water. In addition, there is a disadvantage in that the efficiency of work is low due to the long heat arrival time.

The present invention has been proposed to solve the above problems, the purpose is to lower the temperature of the vaporized high-pressure gas to ensure the safety of the peripheral devices, to prevent freezing can be used in cold climates, It is possible to prevent damage to the parts by preventing corrosion, and to provide a vaporization device that can save energy due to long life and high thermal efficiency.

The vaporization apparatus according to the present invention for achieving the above object is a housing type of a closed type including a liquid inlet through which liquid gas flows, a bottom plate having a through hole in the center thereof, and is housed in the housing member, An evaporation tube made of a closed high pressure pressure vessel, an aluminum tube accommodated in the evaporation tube, in contact with the liquid inlet, and an outer surface of the evaporation tube, and a band for continuously supplying heat to the aluminum tube. The band includes a heater and a gas discharge port which protrudes from the bottom plate through the through hole of the bottom plate and communicates with the outside of the housing member, wherein a high-pressure gas liquid is injected from the liquid inlet and passes through the aluminum tube. The gas liquid is vaporized by the heat provided from the heater and is discharged through the gas outlet The.

Hereinafter, a vaporization apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show a vaporization apparatus according to an embodiment of the present invention, Figure 1 is a cross-sectional view of the vaporization device according to an embodiment of the present invention, Figure 2 is a sectional view taken along the line II-II of FIG. 3 is a detailed view of the band heater and the aluminum tube portion of the device shown in Figure 1, Figure 4 shows a piping diagram for explaining the use of the device shown in FIG.

1 to 4, the vaporization device 100 according to an embodiment of the present invention is the liquid inlet 10, the housing member 20, the aluminum tube 40, the band heater ( 50, a gas outlet 60, and a combination valve 80 are included.

The liquid inlet 10 is a pipe into which the liquid gas of high pressure flows.

The housing member 20 is a hermetic member including a bottom plate 12 having a through hole 14 in a central portion thereof, and is preferably made of aluminum.

The evaporation tube 30 is accommodated in the housing member 20, it is made of a sealed high pressure vessel.

In this embodiment, the nitrogen gas layer is further provided in the sealed inner space between the housing member 20 and the evaporation tube 30. By preventing the inflow of air into the space between the housing member 20 and the evaporation tube 30 by the nitrogen gas filled in the nitrogen gas layer to prevent the generation of moisture in the band heater 50 to be described later band heater ( 50) longer life.

The aluminum tube 40 is accommodated in the evaporation tube 30 and is in communication with the liquid inlet 10. The aluminum tube 40 absorbs heat from a heat source and vaporizes the liquefied gas flowing from the liquid inlet 10 while accumulating the absorbed heat.

The band heater 50 is in contact with the outer surface of the evaporation tube 30, and continuously supplies heat to the aluminum tube (40). That is, the heat generated from the band heater 50 is transferred to the aluminum tube 40 by the heat transfer through the evaporation tube (30).

And, in this embodiment, as shown in Figure 3, the aluminum foil 35 is further installed between the band heater 50 and the evaporation tube 30, the elastic deformation is possible. The aluminum foil 35 reduces the minute spacing between the band heater 50 and the evaporation tube 30 to increase the degree of adhesion to more easily heat the heat provided from the band heater 50. It is to deliver to the aluminum tube 40 through 30.

In addition, in this embodiment, in order to keep the heat supplied to the band heater 50 constant, a temperature controller 57 is further provided. The temperature controller 57 is located inside the housing member 20 and is electrically connected to the band heater 50. In addition, the temperature controller 57 is connected to a power supply unit (not shown) of the vaporization apparatus 100 according to the present embodiment to sense the temperature of the band heater 50 and the temperature of the vaporized gas, When abnormality occurs, it has the function of automatic control which cuts off the power supply of the said power supply part.

In addition, in the present embodiment, the heat insulating material 55 is provided outside the band heater 50. The heat insulating material 55 is provided to more easily transfer the heat provided from the band heater 50 to the aluminum tube 40, the direction in which the aluminum tube 40 of the band heater 50 is located. It is in contact with the surface opposite to. That is, the heat insulating material 55 surrounds the outer circumference of the band heater 50.

The gas outlet 60 passes through the through hole 14 of the bottom plate 12 and protrudes from the bottom plate 12 and communicates with the outside of the housing member. The user is to use the vaporized gas discharged from the gas outlet 60.

The combination valve 80 is installed between the liquid inlet 10 and the aluminum tube 40. In addition, the present embodiment is further provided with a temperature sensing unit 70 for detecting the temperature of the gas in the evaporation tube (30).

When the temperature of the temperature sensing unit 70 is lower than the set temperature, the combination valve 80 operates by receiving a signal from the temperature sensing unit 70 to block liquid inflow into the aluminum tube 40. will be. That is, when the band heater 50 is not operated due to a power failure or a failure of the electric system, the liquid of the high pressure gas is discharged to the gas outlet 60 without being vaporized. In this case, the temperature decreases due to the evaporation of the liquid itself. Therefore, the temperature detecting unit 70 detects the temperature and generates a signal when the temperature decreases, and the combination valve 80 receives the signal to block the inflow of liquid.

In addition, the combination valve 80 to reduce the pressure of the high-pressure gas liquid flowing into the liquid to vaporize even at low temperatures, and, if the internal pressure of the evaporation tube 30 rises of the liquid to the aluminum tube 40 It blocks the inflow.

In addition, in the present embodiment, a liquid shutoff return lever 85 coupled to the combination valve 80 is further provided below the combination valve 80. The liquid shutoff return lever 85 is operated to allow the combination valve 80 to block liquid inflow into the aluminum tube 40 and to allow liquid to flow back into the aluminum tube 40 by manual operation. will be.

The vaporization apparatus 100 according to the embodiment of the present invention having the configuration as described above is used as follows.

As shown in Figure 4, the high pressure liquid gas is introduced through the liquid inlet (10). The introduced liquid gas passes through the strainer 320 through the opening / closing valve 310 to remove foreign substances, and is filtered. Then, the liquid gas is decompressed to the required pressure in the combination valve 80 and the aluminum tube 40 in the evaporation tube 30 is removed. Inflow). Since the evaporation occurs inside the liquid by depressurizing the liquid gas, the temperature of the inflow liquid is lowered, so that heat exchange is possible even when the temperature of the aluminum tube 40 is low, so that the liquid gas is vaporized and the temperature of the vaporized high pressure gas. Also lowers.

Subsequently, the liquid gas introduced into the aluminum tube 40 is vaporized, and the aluminum tube 40 is heated and regenerated by the band heater 50. At this time, the material of the aluminum tube 40 is made of aluminum with good thermal conductivity.

In addition, the minute spaced space between the band heater 50 and the evaporation tube 30 is removed by the aluminum foil 35. Therefore, since there is no air flowing in the fine separation space, the thermal conductivity is high. In addition, it is a matter of course that the heat transfer is good because the aluminum material having a good thermal conductivity. In addition, the band heater 50 is controlled by the temperature controller 57 to generate heat of a constant temperature. And since the outer circumference of the band heater 50 is wrapped by the heat insulating material 55, all the heat generated from the band heater 50 is transferred to the aluminum tube 40.

In addition, between the housing member 20 and the evaporation tube 30 is replaced with nitrogen gas to prevent the inflow of air from the outside.

After the pressure is reduced, the pressure is about 0.2 MPa and the temperature of the aluminum tube 40 is about 60 ° C.

The high pressure gas vaporized in the aluminum tube 40 passes through the manual opening / closing valve 360 through the gas outlet 60 and then removes foreign substances from the strainer 370 to the required supply pressure in the pressure regulator 380. Adjusted and supplied to the consumer.

In addition, a safety valve 330, a thermometer 340, and a pressure gauge 350 are installed between the gas outlet 60 and the manual open / close valve 360, respectively. The safety valve 330 is to protect the device from the damage caused by the abnormal increase in the internal pressure of the portion in contact with the gas, including the evaporation tube 30, and automatically discharges the internal gas when the interior is above the design pressure It is an automatic relief valve that lowers the pressure and closes automatically when the pressure falls below the design pressure.

Since the safety valve 330 is a conventional device, a detailed description thereof will be omitted.

In addition, the thermometer 340 is for measuring the temperature of the supply gas, the pressure gauge 350 is to display the pressure of the gas.

In addition, the housing member 20 is provided with a drain manual valve 390 is drained whenever necessary.

On the other hand, when the inflow of the liquid gas is automatically blocked by the combination valve 80, that is, the temperature of the gas in the evaporation pipe 30 is lowered and this is detected by the temperature sensing unit 70, When the internal pressure of the evaporation tube 30 increases, the cause of the failure or abnormality is identified and repaired. Thereafter, the liquid shutoff return lever 85 may be rotated to vaporize the liquid gas again.

As described above, according to the vaporization device according to the present invention, by lowering the temperature of the vaporized high-pressure gas to ensure the safety of the peripheral devices, it is possible to use in cold regions by preventing freezing, and to prevent corrosion of the parts Damage can be prevented, and long life and high thermal efficiency have the effect of saving energy.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, it is intended to be illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a cross-sectional view of a vaporization apparatus according to an embodiment of the present invention

2 is a cross-sectional view taken along the line II-II of FIG.

3 is a detailed view of the band heater and the aluminum tube portion of the device shown in FIG.

4 is a piping diagram illustrating a state of use of the apparatus shown in FIG.

<Description of Symbols for Main Parts of Drawings>

10. Liquid inlet 20. Housing member

30. Evaporator tube 35. Aluminum foil

40. Aluminum tube 50. Band heater

55. Insulation Material 57. Thermostat

60. Gas outlet 70. Temperature sensing part

80. Combination valve 85. Liquid shutoff return lever

Claims (7)

A liquid inlet port through which liquid gas is introduced; A hermetic housing member including a bottom plate having a through hole at a central portion thereof; An evaporation tube housed in the housing member and made of a closed high pressure pressure vessel; An aluminum tube accommodated in the evaporation tube and in communication with the liquid inlet; A band heater which contacts the outer surface of the evaporator tube and continuously supplies heat to the aluminum tube; And a gas discharge port penetrating through the through hole of the bottom plate and protruding from the bottom plate and communicating with the outside of the housing member. And a gas liquid of high pressure is injected from the liquid inlet and passed through the aluminum tube, and the gas liquid is vaporized by the heat provided from the band heater and discharged through the gas outlet. The method of claim 1, Located between the band heater and the evaporation tube, further comprising an aluminum foil member capable of elastic deformation, Evaporator, characterized in that for reducing the fine separation interval between the band heater and the evaporator tube to easily transfer the heat provided from the band heater to the evaporator tube. The method of claim 1, The housing member has an aluminum material, It is provided with a nitrogen gas layer filled in the closed space between the housing member and the evaporation tube, The vaporization apparatus of the nitrogen gas layer, by preventing the inflow of air into the space between the housing member and the evaporation tube by the nitrogen gas to prevent the moisture in contact with the band heater. The method of claim 1, In order to keep the heat supplied from the band heater constant, The vaporization apparatus is located inside the housing member, further comprising a temperature controller electrically connected to the band heater. The method of claim 1, In order to more easily transfer the heat provided from the band heater to the aluminum tube, Evaporator further comprises a heat insulating material in contact with the surface opposite to the direction in which the aluminum tube of the band heater is located. The method of claim 1, A combination valve installed between the liquid inlet and the aluminum tube and reducing the pressure of the liquid flowing into the liquid inlet and blocking the inflow of the liquid into the liquid inlet; With a temperature sensing unit for sensing the temperature of the gas between the aluminum tube and the gas outlet, And the temperature sensing unit receives a signal from the temperature sensing unit when the temperature sensing unit is lower than the set temperature, thereby operating the combination valve to block liquid inflow into the aluminum tube. The method of claim 6, A liquid shutoff return lever coupled to the combination valve is further provided below the combination valve. And the combination valve is operated to block liquid from flowing into the aluminum tube, and then liquid is introduced into the aluminum tube again by manual operation of the liquid shutoff return lever.