KR102526848B1 - Electric heater type heat exchanger - Google Patents

Abstract

The present invention relates to an electric heater-type heat exchanger, and more particularly, when a crack occurs in an external tube in an electric heating element of an electric heater-type heat exchanger, gas leakage from a shell part can be easily blocked without being discharged to the terminal box side, and furthermore, It relates to an electric heater type heat exchanger capable of detecting gas leakage.
To this end, the present invention is to exchange heat with the incoming BOG (Boil Off Gas), an electric heating element assembly having a double tube structure of an outer tube and an inner tube; A shell portion including a flange provided at the front end, an inlet and an outlet through which BOG flows in and out, and having a plurality of the electric heating elements therein; A terminal box connected to the front end of the shell unit; And a tube sheet portion provided between the shell portion and the terminal box, including a front tubesheet connected to the front end of the electric heating element and a rear tubesheet connected to the flange so that the inside of the shell portion is sealed ( tubesheet space); in the electric heating element, the end of the outer tube extends to the rear end tubesheet, so that the outer and inner tubes are in mutual communication with the tubesheet portion, and when a crack occurs in the outer tube, the tubesheet It is characterized in that BOG is collected in the portion.

Description

Electric heater type heat exchanger that can easily block and detect gas leakage {ELECTRIC HEATER TYPE HEAT EXCHANGER}

The present invention relates to an electric heater-type heat exchanger, and more particularly, when a crack occurs in an external tube in an electric heating element of the electric heater-type heat exchanger, gas leakage from a shell part can be easily blocked without being discharged to the terminal box side, and furthermore It relates to an electric heater type heat exchanger capable of detecting gas leakage.

In general, a shell and tube type heat exchanger is widely used for heat exchange of liquids.

In a shell-and-tube type heat exchanger, which is a typical type of heat exchanger, a plurality of metal tubes made of copper alloy or the like are arranged in parallel to the shell inside the shell. A high-temperature fluid flows inside the shell, that is, outside the tube, a cryogenic fluid flows inside the tube, and heat exchange between the cryogenic fluid flowing through the tube is configured.

As a shell-and-tube type heat exchanger, Korean Patent Registration No. 10-1512224 and Korean Patent Publication No. 10-2007-0084401 are disclosed.

In order to use LNG and BOG as fuel in the FGSS (Fuel Gas Supply System) of LNG carriers and LNG-fueled ships, it is necessary to heat the LNG to an appropriate required temperature before vaporizing it. The shell-and-tube type heat exchanger plays the role of an indirect heater for heating such LNG and BOG, and directly vaporizes and supplies it by raising it to the appropriate required temperature.

On the other hand, in such a shell-and-tube type heat exchanger, an electric heater is provided inside the shell, so that heat exchange is performed by introducing cryogenic BOG (Boil Off Gas).

As an electric heater type heat exchanger, Korean Utility Model Publication No. 20-2011-0010696 and the like are disclosed.

However, in the case of such a shell-and-tube type electric heater type heat exchanger, there is a problem in that BOG flows into the terminal box side when a crack occurs in the outer tube of the electric heating element. When the BOG flowing in the shell part comes into contact with the tube part on the terminal box side, a fatal problem may occur. The leakage of the BOG due to the crack of the electric heating element eventually has a problem of degrading the performance of the heat exchanger.

Republic of Korea Patent Registration No. 10-1512224 Republic of Korea Patent Publication No. 10-2007-0084401 Republic of Korea Utility Model Publication No. 20-2011-0010696

The present invention has been made to solve the above problems, and when a gas leaks due to a crack in the outer tube of the electric heating element, an electric heater type in which gas does not flow into the terminal box and is easy to block and detect. Its purpose is to provide a heat exchanger.

Another object of the present invention is to provide an electric heater type heat exchanger in which leaked gas can be easily detected.

In addition, an object of the present invention is to provide an electric heater type heat exchanger that can easily block and detect gas leakage, which can solve the problem of poor performance of the heat exchanger.

Along with this, other objects and advantages of the present invention will be described below, which will be further explained by means and combinations within the scope easily deduced from them, as well as the details described in the claims of the present invention and the disclosure of the embodiments thereof. It is added that it will be embraced in a wide range.

The present invention for achieving the above object is to exchange heat with the incoming BOG (Boil Off Gas), an electric heating element assembly having a double tube structure of an outer tube and an inner tube; A shell portion including a flange provided at a front end, an inlet and an outlet through which BOG flows in and out, and having a plurality of the electric heating elements therein; a terminal box connected to the front end of the shell part; And provided between the shell part and the terminal box, a front tubesheet connected to the front end of the electric heating element, and a rear tubesheet connected to the flange so that the inside of the shell part is sealed. and a tubesheet space, wherein an end of an outer tube in the electric heating element extends to the rear end tubesheet, so that the outer and inner tubes communicate with each other, and the outer tube is in communication with the outer tube. It is characterized in that when a crack occurs, BOG is collected in the tube sheet portion.

And according to a preferred embodiment of the present invention, the electric heating element is provided inside the inner tube, the element bar (element bar) provided from the front end of the inner tube past the end of the outer tube; an element coil provided inside the inner tube to come into contact with an end of the element bar; and magnesia provided inside the inner tube and between the outer tube and the inner tube.

In addition, according to a preferred embodiment of the present invention, the tube sheet portion is characterized in that it further comprises a discharge port for discharging the leaked and collected BOG.

And according to a preferred embodiment of the present invention, it is characterized in that it further comprises a gas leak detector provided in the outlet.

As described above, according to the present invention, the following effects can be expected.

When gas leaks due to a crack in the outer tube of the electric heating element, the gas does not flow into the terminal box, and the gas can be blocked. That is, by collecting the leaking gas in the tube sheet portion, the gas can be prevented from flowing into the terminal box.

Furthermore, a gas leak detector may be further provided in the tube sheet portion, so that detection of leaked gas may be facilitated. Therefore, the heat exchanger according to the present invention has an effect that can solve the problem of poor performance due to leakage of gas due to occurrence of cracks or the like.

Along with this, other effects of the present invention are not only the matters described in the above-described embodiments and the claims of the present invention, but also the possibility of potential advantages contributing to the effects and industrial development that can occur within the range that can be easily deduced from them. It is added that it will be embraced in a wider range by

1 is a perspective view showing an electric heater type heat exchanger in which gas leakage can be easily blocked and detected according to the present invention.
2 is a plan view showing an electric heater type heat exchanger in which gas leakage can be easily blocked and detected according to the present invention.
3A and 3B are diagrams showing an electric heating element of an electric heater type heat exchanger in which gas leakage can be easily blocked and detected according to the present invention.
FIG. 4 is an enlarged view of a portion of FIG. 2 .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to the description, the advantages and features of the present invention and how to achieve them will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings. In addition, the terms used in this specification are for describing the embodiments and are not intended to limit the present invention, and the singular form of these terms includes the plural form unless specifically stated in the phrase, and the word referring to the direction in the description It is noted that is to help the understanding of the description and is changeable according to the point in time.

Hereinafter, a dual tube type cylindrical shell and tube heat exchanger according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing an electric heater-type heat exchanger that can easily block and detect gas leaks according to the present invention, and FIG. 2 is a plan view showing an electric heater-type heat exchanger that can easily block and detect gas leaks according to the present invention.

1 and 2, the electric heater type heat exchanger 100, which is easy to block and detect gas leakage according to the present invention, includes a shell part 10, an electric heat element assembly 20, and a terminal box ( terminal box; 30), and a tubesheet space; 40.

The shell part 10 is a part through which BOG (Boil Off Gas) flows. An electric heating element 20 to be described below is provided inside the shell part 10, and heat exchange with the BOG is made. The shell part 10 includes an inlet 11, an outlet 12, a flange 15, and a baffle 17.

As indicated by arrows in FIG. 2 , the inlet 11 is a portion through which BOG is introduced, and the outlet 12 is a portion through which BOG flows out. BOG introduced through the inlet 11 is of cryogenic temperature, and heat exchange may be performed by the electric heating element 20 . In this embodiment, the inlet 11 is provided on the lower side of the rear side, and the outlet 12 is provided on the upper side of the front side, but is illustrated as an example, but is not limited to this form.

The flange 15 is provided at the front end of the cell part 10 . The flange 15 is screwed to the rear end tube sheet 42 of the tube sheet portion 40 described below.

A plurality of baffles 17 are installed alternately inside the shell part 10 . The baffle 17 changes the flow of BOG flowing into the cell unit 10 . That is, the baffles 17 are spaced apart from each other at regular intervals in the transverse direction of the shell part 10 in order to guide the flow of BOG meanderingly with respect to the longitudinal direction of the shell part 10 . The number of baffles 17 and their separation distance may be variously changed according to the capacity and shape of the shell part 10 .

Since the baffles 17 are arranged alternately, that is, in a zigzag manner at the top and bottom inside the shell part 10, the flow of BOG introduced into the inlet 11 of the shell part 10 flows while forming a curve, It flows out through the outlet 12 of the shell part 10. In this way, the BOG flowing in a curve by the baffle can make many contacts with the electric heating element 20, so that the heat exchange performance is improved.

Although the shell portion 10 according to the present embodiment is shown as an example of a cylindrical shape having a circular longitudinal section, it is not limited to this shape and may have other shapes.

A plurality of electric heating elements 20 are provided inside the shell part 10 . The electric heating element 20 exchanges heat with the incoming BOG. The electric heating element 20 has a rear end bent in a U shape. Detailed views of the electric heating element 20 are shown in FIGS. 3A and 3B. 3A and 3B are diagrams showing an electric heating element of an electric heater type heat exchanger in which gas leakage can be easily blocked and detected according to the present invention.

Referring to FIGS. 3A and 3B , the electric heating element 20 has a double tube structure including an outer tube 21 and an inner tube 22 . The electric heating element 20 includes an outer tube 21, an inner tube 22, an element bar 23, an element coil 24, and magnesia 25. The outer tube 21 extends to the rear tube sheet 42 whose end is to be lowered. Since the inner tube 22 is formed by extending through the rear end tubesheet 42, the outer and inner tubes 21 and 22 communicate with the tubesheet portion 40.

Due to the shape of the outer tube 21, when a crack occurs in the outer tube 21, BOG can be collected in the tube sheet portion 40. Regarding this, it is described below.

The inner tube 22 is provided inside the outer tube 21 . The element bar 23 is provided inside the inner tube 22, and is provided from the front end of the inner tube 22 to the end of the outer tube 21. The element coil 24 is provided to contact the end of the element bar 23 inside the inner tube 22 .

Magnesia 25 is provided inside and outside the inner tube 22 and between the inner tubes 21 and 22 . The magnesia 25 serves to prevent overheating and failure of the heat exchanger 100 by evenly distributing and transferring heat generated from the electric heating element 20 . Magnesia 25 is magnesium oxide (MgO) and has excellent thermal conductivity. In this embodiment, the description is limited to the magnesia 25, but it is not limited thereto, and any powder that is robust against external physical impact and has excellent thermal conductivity, such as ceramic powder, may be used, and aluminum oxide ( AI ₂ O ₃ ; alumina), quartz glass powder, sand, and the like may be used.

The terminal box 30 is connected to the front end of the shell part 10 . The front end of the electric heating element 20 is provided inside the terminal box 30, and becomes a power supply unit for supplying electricity to the electric heating element 20.

The tube sheet portion 40 is provided between the shell portion 10 and the terminal box 30 . The tube sheet portion 40 includes a front tubesheet 41 and a rear tubesheet 42. The front end tube sheet 41 is provided at the front end of the tube sheet portion 40, and is connected to the terminal box 30. The front tube sheet 41 is connected to the front end of the electric heating element 20, and the front end of the electric heating element 20 extends and protrudes and is provided inside the terminal box 30.

The rear end tube sheet 42 is provided at the rear end of the tube sheet portion 40 and is connected to the flange 15 so that the inside of the shell portion 10 is sealed. The rear tube sheet 42 and the flange 15 may be fixed with screws or the like, and a filling part may be provided between the rear tube sheet 42 and the flange 15 . As described above, the rear end tube sheet 42 is formed by extending the end of the outer tube 21 of the electric heating element 20. Due to this, the tubesheet portion 40 communicates with each other between the outer and inner tubes 21 and 22 .

Due to the shapes of the tube sheet portion 40 and the electric heating element 20 according to this embodiment, it is easy to block and detect gas leakage. This will be explained. FIG. 4 is an enlarged view of a portion of FIG. 2 .

Referring to FIG. 4 , as indicated by “A”, when a crack occurs in the outer tube 21 of the electric heating element 20, BOG is introduced into the cracked portion. Since BOG is flowing inside the shell part 10 , BOG flowing outside of the electric heating element 20 may flow into the crack portion of the outer tube 21 . As shown by the arrow, the introduced BOG passes between the outer tube 21 and the inner tube 22 and exits through the end of the outer tube 21 . Due to this, the introduced BOG is collected in the tube sheet portion 40 . Therefore, in the electric heater type heat exchanger 100 according to the present embodiment, leakage of gas can be blocked. Even if the BOG leaks, there is an effect that the inflow toward the terminal box 30 can be completely blocked.

The tube sheet portion 40 may further include an outlet 45 and a gas leak detector (not shown). The outlet 45 is provided on the top of the tube sheet portion 40 . Outlet 45 drains the leaked and collected BOG. A gas leak detector may be provided at the outlet 45 . A gas leak detector detects leaking BOG. When BOG is detected, the gas leak detector may notify by sound, or notify an operator through wireless communication or the like.

Meanwhile, the electric heater type heat exchanger 100 according to the present embodiment has been described by taking heat exchange of BOG as an example, but is not limited to this type. That is, it may be applied to heat exchange media such as vapor and liquid.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art can make various modifications, changes, and substitutions without departing from the essential characteristics of the present invention. will be. And as described above, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is limited by these embodiments and the accompanying drawings. it is not going to be The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100: electric heater type heat exchanger
10: shell part
11; inlet
12; outlet
15; flange
17; baffler
20: electric heating element
21; outer tube
22; inner tube
23; element bar
24; element coil
25; magnesia
30; terminal box
40; tube sheet part
41, 42; tube sheet
45; outlet

Claims (4)

It exchanges heat with the incoming BOG (Boil Off Gas), has a double tube structure of an outer tube and an inner tube, and is provided inside the inner tube and is provided from the front end of the inner tube to the end of the outer tube Element bar ( element bar), an element coil provided inside the inner tube to come into contact with an end of the element bar, and magnesia provided inside the inner tube and between the outer tube and the inner tube. electric heat element assembly;
A shell portion including a flange provided at a front end, an inlet and an outlet through which BOG flows in and out, and having a plurality of the electric heating elements therein;
a terminal box connected to the front end of the shell part; and
It is provided between the shell part and the terminal box, and includes a front tubesheet connected to the front end of the electric heating element, and a rear tubesheet connected to the flange so that the inside of the shell part is sealed. A sheet portion (tubesheet space); including,
An end of an outer tube in the electric heating element extends to the rear end tube sheet so that the outer and inner tubes are in communication with the tube sheet portion,
When a crack occurs in the outer tube, the BOG flowing inside the shell part flows into the crack part, passes between the outer tube and the inner tube, and exits to the end of the outer tube, thereby forming the tube sheet An electric heater type heat exchanger, characterized in that BOG is collected in the portion.
delete The method of claim 1, wherein the tube sheet portion,
The electric heater type heat exchanger, characterized in that it further comprises a discharge port for discharging the leaked and collected BOG. According to claim 3,
The electric heater type heat exchanger further comprising a gas leak detector provided at the outlet.

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