KR200389233Y1 - apparatus for dividing compound into liquid and vapor - Google Patents

Abstract

 The present invention relates to a gas-liquid separator, the gas-liquid separator includes a heating system of a closed cycle for heating the evaporator, the heating system of the closed cycle, the installation of the jacket 122 of the evaporator 121 A heating tank 160 installed at a position lower than the position to heat the fruit; A fruit supply line 161 having one end connected to an upper end of the heating tank and the other end connected to an upper end of the jacket 122 of the evaporator 121; A fruit discharge line 163, one end of which is connected to the lower end of the jacket 122 of the evaporator 121 and the other end of which is connected to the lower end of the heating tank 160; And a vacuum line 164, one end of which is connected to the middle of the fruit supply line 161 and the other end of which is connected to the first component discharge line 128, with the electromagnetic opening and closing valve V1 interposed therebetween. I am doing it.

Description

Apparatus for dividing compound into liquid and vapor}

The present invention relates to a gas-liquid separator, and more particularly, to a system for heating an evaporator provided in the gas-liquid separator.

The gas-liquid separator is, for example, in order to separate a liquid mixture in which two components are mixed into a gas liquid, the liquid mixture to be separated into a gas liquid is supplied under vacuum from an evaporator to be heated, and the first vaporization point in the mixture is low. The components are discharged from the evaporator in a gaseous state to be liquefied and stored in the condenser, and the second component having a high vaporization point is discharged in a liquid state and stored in the storage tank.

However, in the conventional gas-liquid separator, the heating method of the evaporator is the first method of heating the inside of the evaporator by heating fruit such as water or other substances (liquid boiling point of 300 ° C. or more) and circulating it in the jacket of the evaporator. The steam is circulated through the jacket of the evaporator to heat the inside of the evaporator.

In the first method, as shown in FIG. 1, when the circulation pump 1 is operated, the fruit of water or other substances stored in the liquid storage tank 2 is heated along the circulation line 3. Is introduced into the jacket 5a of the evaporator 5 while being heated to a predetermined temperature and then returned to the liquid storage tank 2 again.

In the first method, since the circulation pump 1 must be operated continuously during the operation of the evaporator, seal damage of the circulation pump occurs frequently, thereby increasing the maintenance cost of the circulation pump and shortening the life of the circulation pump. Due to the height of the pump according to the height difference between the liquid storage tank, the circulation pump, the heating device and the evaporator, a pump with a large power for circulating the fruit is needed. Since the heat dissipation is circulated through the circulation line, the heating efficiency is low, and the antifreeze is added to the fruit in order to prevent the fruit from freezing in winter and freeze the various devices, so that the fruit is not pure material, The scale of the jacket of the liquid storage tank, circulation pump, heater and evaporator as well as the circulation line There is a problem that high.

On the other hand, as shown in Figure 2, the second method, the water of the water or other substances filled in the boiler 11 is heated in the boiler 11 is changed to a state of steam in the middle of the circulation line 12 The pressure reducing valve 13 is introduced into the jacket 15 of the evaporator 14 at a predetermined pressure to heat the evaporator 14, and then the condensate tank 17 via the condensate trap valve 16 by the amount of heat lost. When the amount of fruit of the boiler 11 is insufficient, the condensed water in the condensate tank 17 is replenished to the boiler 11 by the fruit supply pump 18 interposed in the circulation line 12. It is in a way to make it.

In this second method, the pressure reducing valve 13 for supplying a constant pressure steam to the evaporator jacket, the condensate trap valve 16 for supplying only the condensate to the condensate tank, and the fruit supply for supplying the condensate to the boiler The pump 18 is not only complicated in structure, but also requires considerable cost for maintenance, and the condensate tank 17 is an open fruit circulation system in circulation with the atmosphere, so that the condensate tank 17 and other equipment Due to the pressure difference, the liquid fruit is discharged from the condensate tank 17 as steam, and the heat and quantity of the fruit are lost in the condensate tank 17, and it is impossible to add antifreeze to the fruit due to the use of the steamed fruit. If the evaporator does not work in winter, the fruit freezes and freezes the condensate tank, the fruit supply pump, the boiler and various pipes connecting them. In addition, due to the loss of the amount of the fruit, a new non-pure fruit (for example, non-pure water) is frequently supplied to the boiler, and there is a problem that the scale is generated in the boiler.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a gas-liquid separator with a heating system capable of heating the evaporator of the gas-liquid separator while circulating the fruit of steam in a closed cycle.

In order to achieve the above object, the present invention, the evaporator for separating the mixed liquid into the gas liquid by receiving the mixed liquid from the mixed liquid supply passage via the mixed liquid supply line is provided with an electronic opening and closing valve on the way; And a gas-liquid having a first component discharge line which is circulated in a vacuum pump and has one end connected to the upper end of the evaporator to evacuate the inside of the evaporator and to discharge the first gaseous component separated from the evaporator. A separation apparatus, further comprising: a closed cycle heating system for heating the evaporator, wherein the closed cycle heating system comprises: a heating tank installed at a position lower than an installation position of the jacket of the evaporator to heat the fruit; A fruit supply line having one end connected to an upper end of the heating tank and the other end connected to an upper end of the jacket of the evaporator; A fruit discharge line having one end connected to a lower end of the jacket of the evaporator and the other end connected to a lower end of the heating tank; It is assumed that one end is connected in the middle of the fruit supply line and the other end includes a vacuum line in which an electromagnetic shutoff valve is interposed in the state in which the first component discharge line is connected.

Hereinafter, an embodiment of the gas-liquid separator according to the present invention will be described with reference to FIG. 3.

In the gas-liquid separator of the present embodiment shown in FIG. 3, the mixed liquid is supplied from the mixed liquid supply container 115 through the mixed liquid supply line 126 provided with the electronic open / close valve 124 on the way to separate the mixed liquid into gas liquid. Evaporator 121; In addition, the inside of the evaporator 121 is evacuated and at the same time, it is distributed in a vacuum pump (not shown) to discharge the gaseous first component separated from the evaporator 121, and one end of the evaporator 121 And a first component discharge line 128 connected thereto.

Further, the gas-liquid separator of the present embodiment includes a closed cycle heating system for heating the evaporator. The heating system of the closed cycle, the heating tank 160 is installed at a position lower than the installation position of the jacket 122 of the evaporator 121 to heat the fruit; A fruit supply line 161 having one end connected to an upper end of the heating tank 160 and the other end connected to an upper end of the jacket 122 of the evaporator 121; A fruit discharge line 163, one end of which is connected to the lower end of the jacket 122 of the evaporator 121 and the other end of which is connected to the lower end of the heating tank 160; The vacuum line 164 is provided with an electromagnetic opening and closing valve V1 interposed therebetween with one end connected in the middle of the fruit supply line 161 and the other end connected in the middle of the first component discharge line 128. It is included.

The gas-liquid separator having such a configuration operates as follows.

First, after filling the heating tank 160 with evaporable fruit, the electronic opening and closing valve (V1) to open the heating tank 160, jacket 122 of the evaporator 121, fruit discharge line 163, fruit supply line 161, the vacuum line 164, and the evaporator 121 are brought into a predetermined vacuum state, and the heating tank 160 is operated using an electric heater, a steam supply source, etc. in a state where the solenoid valve V1 is closed. To a predetermined temperature.

Then, the electromagnetic opening and closing valve 124 is opened via the mixed liquid supply line 126 to receive the mixed liquid from the mixed liquid supply container 115 and supply the mixed liquid to the evaporator 121 for separating the mixed liquid into gas liquid to separate the liquid mixture into the gas liquid. The first component is transferred to the next process via the first discharge line 128.

During the gas-liquid separation process of the evaporator 121, a portion of the fruit heated to a predetermined temperature in the heating tank 160 is vaporized in the jacket 122 of the evaporator 121 via the fruit supply line 161 to evaporate The fruit having the energy lost while flowing into the jacket 122 of the 121 and gas-liquid separation of the mixed liquid of the evaporator 121 is condensed.

Here, the fruit having energy that is not lost in the jacket 122 is located at the top of the jacket 122 in a vapor state, and the fruit having lost energy is positioned at the bottom of the jacket 122, It is introduced into the heating tank 160 installed at a lower position than the jacket 122 via the fruit discharge line 163 by natural falling.

The present invention provides a gas-liquid separator with a heating system capable of heating the evaporator of the gas-liquid separator while circulating the fruit of the vapor in a vacuum state, firstly, a circulation pump or a fruit supply pump and an expensive pressure reducing valve for conveying the fruit and By eliminating the trap and at the same time shortening the circulation line of the fruit due to the exclusion of the pump, only pure fruit can be transported to the fruit supply line, jacket, fruit discharge line in the vapor state or liquid state, It is possible to prevent the scale that has been conventionally generated with respect to, it can provide the effect of making the installation cost and maintenance cheaper than the conventional.

In addition, the present invention can transfer only the pure fruit to the fruit supply line and the jacket in the vapor state at the same time can be transferred to the fruit discharge line in the liquid state (condensed water) and the bottom of the condensate and heating tank of the fruit discharge line It is possible to mix the anti-freeze with the fruit stored in the heating tank, so that the liquid fruit located in the liquid can be mixed with each other, so that the fruit freezes and freezes various devices when the evaporator is not operated in winter. Provides an effect that can be prevented.

1 is an explanatory diagram of a conventional gas-liquid separator.

2 is an explanatory view of another conventional gas-liquid separator.

3 is an explanatory view of the gas-liquid separation device of this embodiment.

Claims (1)

An evaporator 121 which receives the mixed liquid from the mixed liquid supply container 115 through the mixed liquid supply line 126 provided with the electronic open / close valve 124 and separates the mixed liquid into gas liquid; In addition, the inside of the evaporator 121 is evacuated, and at the same time, it is distributed in a vacuum pump to discharge the gaseous first component separated from the evaporator 121, and one end is connected to the upper end of the evaporator 121. In the gas-liquid separation device having a first component discharge line 128, It further includes a closed cycle heating system for heating the evaporator, The heating system of the closed cycle, A heating tank 160 installed at a position lower than an installation position of the jacket 122 of the evaporator 121 to heat the fruit; A fruit supply line 161 having one end connected to an upper end of the heating tank and the other end connected to an upper end of the jacket 122 of the evaporator 121; A fruit discharge line 163, one end of which is connected to the lower end of the jacket 122 of the evaporator 121 and the other end of which is connected to the lower end of the heating tank 160; And A vacuum line 164, one end of which is connected in the middle of the fruit supply line 161 and the other end of which is connected with the first component discharge line 128, with the electromagnetic opening and closing valve V1 interposed therebetween. Gas-liquid separator, characterized in that.