KR20220153313A - Nature vaporization apparatus for atomizing exhaust water of Hydrogen vehicle - Google Patents

Abstract

In accordance with the present invention, a discharge water natural-evaporation apparatus for a hydrogen vehicle, includes: a water tank having a discharge water storage space therein; a silencer having a noise reduction function; a first exhaust pipe transferring discharge water and discharge air discharged from a hydrogen fuel cell to the water tank; a second exhaust pipe transferring the discharge air introduced into the water tank to the silencer; a third exhaust pipe discharging the discharge air introduced into the silencer to the outside; and a rotary unit coupled to the inside of the water tank in a rotatable structure, while having a part of a lower side submerged in the discharge water stored in the water tank. In accordance with the present invention, the discharge water natural-evaporation apparatus for a hydrogen vehicle can effectively naturally evaporate the discharge water generated from the hydrogen fuel cell, and, even when a large amount of discharge water is generated for a short time, can evaporate all of the discharge water, thereby preventing road freezing, and also, can collect and evaporate even moisture generated from the silencer, thereby improving the performance and durability of the silencer.

Description

Nature vaporization apparatus for atomizing exhaust water of Hydrogen vehicle}

The present invention relates to a device for preventing road icing by naturally evaporating and discharging discharged water generated from a hydrogen fuel cell of a hydrogen vehicle, and more particularly, to a rotating unit in which discharged water generated from a hydrogen fuel cell rotates inside a water tank. It relates to a natural evaporation device for exhaust water for a hydrogen vehicle configured to be naturally evaporated by

In general, modern people pay attention to energy-related oil price trends every day. Petroleum energy, whose production is significantly reduced compared to demand, not only causes natural environmental problems such as serious climate warming, but also has limited reserves, so mankind is actively conducting research on the development of alternative energy to cope with it. Among them, a hydrogen fuel cell using hydrogen energy has not only higher thermal efficiency than current internal combustion engines, but also a cleaner product, so it is in the spotlight as an excellent and environmentally friendly alternative energy.

A hydrogen fuel cell is a device that generates electricity while generating water by receiving oxygen in the air and hydrogen as a fuel. Air from the atmosphere is supplied to the cathode of the fuel cell by means of a device.

Hydrogen supplied to the hydrogen fuel cell is separated into hydrogen ions and electrons at the catalyst of the anode, and the separated hydrogen ions pass to the cathode through the polymer electrolyte membrane. It combines with the electrons that came along the external wire to create water and generate electrical energy.

At this time, hydrogen ions separated from hydrogen pass through the electrolyte membrane and react with oxygen in the air supplied to the hydrogen fuel cell on the opposite side of the electrolyte membrane to generate water. The water produced in this way is discharged into the atmosphere together with other materials as the only discharge water of a hydrogen vehicle. Hereinafter, a conventional discharge water discharge structure for a hydrogen vehicle will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram showing a conventional discharge water discharge structure for a hydrogen vehicle, and FIG. 2 is a cross-sectional view of a silencer applied to a conventional hydrogen vehicle.

The hydrogen fuel cell reacts with water generated from the hydrogen fuel cell 10 of the hydrogen vehicle (hereinafter referred to as “emission water”) and discharges the remaining air (hereinafter referred to as “exhaust air”) to the outside. An exhaust pipe 20 is provided at the rear end of (10).

The discharged water generated from the hydrogen fuel cell 10 is configured to be discharged onto the road as it is while driving. When the outside temperature is below freezing, the discharged water freezes on the road surface and causes road icing.

In order to reduce the amount of discharged water discharged onto the road, an indoor humidifier that recycles some of the discharged water generated from the hydrogen fuel cell for indoor humidification has been proposed (Korean Utility Model Publication No. 20-2017-0002002). When a large amount is generated, there is a problem in that all discharged water generated from the hydrogen fuel device cannot be recycled for indoor humidification even if such an indoor humidifier for a hydrogen vehicle is used.

In addition, in order to discharge discharged water and discharged air, an air blower, which is a turbo machine, must be rotated at high speed. In this process, severe noise is generated, so a silencer 30 is installed at the rear end of the exhaust pipe 20.

As shown in FIG. 1, the structure of the conventional silencer 30 for a hydrogen fuel cell includes an inner pipe 31 communicating with the exhaust pipe 20, and an outer shell surrounding the inner pipe 31 in a double pipe structure ( 35) and glass fibers 36 filled between the inner pipe 31 and the outer shell 35. A plurality of holes 32 are bored in the inner pipe 31 so that exhaust gas and noise can be transmitted to the glass fiber 36 .

Since the glass fiber 36 has a large amount of non-uniform space inside, when the high-frequency pressure wave of the exhaust air is transmitted to this space, frequency loss occurs in the large amount of non-uniform space and noise is eliminated. will be.

However, in the conventional silencer configured as described above, when the exhaust air flows along the inside of the inner pipe 31 in a low ambient temperature state, the moisture contained in the exhaust air is condensed in the silencer 30, and this There is a problem that the condensed water produced as such wets the glass fibers 36 and the sound absorption effect as described above is lowered.

In particular, when a large portion of the glass fiber 36 is wetted by condensate as described above, the internal volume of the silencer 30 deviates from the design value, so that the role of the silencer 30 cannot be properly expected, and the condensate water silencer ( 30), there is also a problem that the durability of the silencer 30 is greatly reduced, such as corrosion occurring when it is present in the silencer 30 for a long time.

KR 10-1405183 B1

The present invention has been proposed to solve the above problems, and it is possible to effectively spontaneously evaporate discharged water generated from a hydrogen fuel cell, and prevent road icing by evaporating all discharged water even if a large amount of discharged water is generated in a short time. It is an object of the present invention to provide a natural evaporation device for hydrogen vehicles, which can improve the performance and durability of the silencer by recovering and evaporating the moisture generated in the silencer.

In order to achieve the above object, an apparatus for natural evaporation of exhaust water for a hydrogen vehicle according to the present invention includes a water tank having an exhaust water storage space therein; A silencer having a noise reduction function; a first exhaust pipe for transferring exhaust water and exhaust air discharged from the hydrogen fuel cell to the water tank; a second exhaust pipe for transferring exhaust air introduced into the water tank to the silencer; a third exhaust pipe for discharging the exhaust air introduced into the silencer to the outside; It is configured to include; a rotating unit coupled to the inside of the water tank in a structure capable of rotating, and a lower part of which is configured to be submerged in the discharged water stored in the water tank.

The rotating unit includes a plurality of laminated plates arranged in parallel so as to be spaced apart from each other, and a central shaft coupled to pass through the plurality of laminated plates in a thickness direction and mounted in the water tank in a structure capable of rotating,

The exhaust air supplied to the inside of the water tank through the first exhaust pipe is configured to flow into the second exhaust pipe after passing through the space between the plurality of laminated plates.

Further comprising a plurality of wing plates arranged perpendicular to the laminate plate and inserted between two adjacent laminate plates,

The first exhaust pipe is disposed so that the exhaust air supplied into the water tank collides with one surface of the wing plate, so that the rotating unit is rotated by the fluid pressure of the exhaust air.

The wing plates are radially arranged around the central shaft.

A driving unit for rotating the central shaft is further included.

A heating wire is built into the bottom of the water tank.

A recovery pipe for returning the condensed water that has fallen to the bottom of the silencer to the water tank is further included.

The silencer includes a housing having an inner space and glass fibers filled inside the housing,

The second exhaust pipe is mounted so that its rear end is adjacent to the rear side inner wall of the silencer,

The third exhaust pipe is mounted so that its front end is adjacent to the inner wall of the front side of the silencer.

The third exhaust pipe is positioned above the second exhaust pipe.

Further comprising an auxiliary recovery pipe for returning the condensate that has fallen to the bottom of the third exhaust pipe to the water tank,

A concave portion for collecting condensed water is formed at the bottom of the outlet side of the third exhaust pipe, and the auxiliary recovery pipe is connected to the bottom of the condensed portion.

If the exhaust water natural evaporation device for a hydrogen vehicle according to the present invention is used, exhaust water generated from a hydrogen fuel cell can be effectively evaporated naturally, and road icing can be prevented by evaporating all exhaust water even if a large amount of exhaust water is generated in a short time. And it has the advantage that the performance and durability of the silencer can be improved by recovering and evaporating moisture generated in the silencer.

1 is a schematic diagram showing a conventional discharge water discharge structure for a hydrogen vehicle.
2 is a cross-sectional view of a silencer applied to a conventional hydrogen vehicle.
3 is a schematic diagram of an exhaust water natural evaporation device for a hydrogen vehicle according to the present invention.
4 is a perspective view of a rotation unit included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention.
5 is a front view of a rotation unit included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention.
6 is a cross-sectional view of the rotation unit taken along line AA shown in FIG. 5;
7 is a partial cross-sectional view of a water tank included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention.
8 is a cross-sectional view of a silencer included in the exhaust water natural evaporation device for a hydrogen vehicle according to the present invention.
9 is a partial cross-sectional view of a third exhaust pipe included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention.

Hereinafter, an embodiment of a natural evaporation device for hydrogen vehicles according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a schematic diagram of a natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention, Figure 4 is a perspective view of a rotation unit included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention, Figure 5 is a hydrogen vehicle according to the present invention It is a front view of the rotation unit included in the discharge water natural evaporation device, and FIG. 6 is a cross-sectional view of the rotation unit taken along the line A-A shown in FIG.

The natural evaporation device for hydrogen vehicles according to the present invention is most advantageous in that it is configured to naturally evaporate the discharged water and discharge it in a gaseous state so that the discharged water generated from the hydrogen fuel cell 100 and discharged to the outside is not discharged in a liquid state. It has great features.

That is, the natural evaporation device for hydrogen vehicles according to the present invention includes a water tank 300 having an exhaust water storage space therein, a silencer 400 having a noise reduction function, and a hydrogen fuel cell 100. A first exhaust pipe 210 for delivering discharged water and discharged air to the water tank 300, and a second exhaust pipe 220 for delivering the discharge air introduced into the water tank 300 to the silencer 400; The third exhaust pipe 230 for discharging the exhaust air introduced into the silencer 400 to the outside and the water tank 300 are combined in a structure capable of rotating inside the water tank 300, but the lower part is submerged in the discharged water stored in the water tank 300 It is configured to include a rotation unit 500 configured to.

Exhaust water and exhaust air generated from the hydrogen fuel cell 100 are introduced into the water tank 300 through the first exhaust pipe 210, and at this time, the rear end (lower end in this embodiment) of the first exhaust pipe 210 and the front end (right end in this embodiment) of the second exhaust pipe 220 is mounted to pass through the upper part of the inner wall of the water tank 300, so that the discharged water flowing into the water tank 300 is discharged from the bottom of the water tank 300 and only the exhaust air introduced into the water tank 300 is delivered to the silencer 400 through the second exhaust pipe 220.

The exhaust air delivered to the silencer 400 is discharged to the outside through the third exhaust pipe 230 after the noise is reduced to a certain level while passing through the silencer 400, and the discharged water collected at the bottom of the water tank 300 is discharged to the rotating unit. After being deposited on the surface of 500 and evaporated naturally, it is discharged to the outside through the second exhaust pipe 220, the silencer 400, and the third exhaust pipe 230. At this time, since the discharged water is buried over the wide surface of the rotating unit 500, the contact area with the discharged air introduced through the first exhaust pipe 210 is widened, and thus the discharged water can be effectively evaporated naturally. there is

As such, when the natural evaporation device for hydrogen vehicles according to the present invention is used, the discharged water generated from the hydrogen fuel cell 100 is naturally evaporated and released in a gaseous state, so that the liquid discharged water falls to the road surface and does not cause road surface icing. There are advantages to not having to.

In addition, in the natural evaporation device for hydrogen vehicles according to the present invention, the discharged water is primarily stored in the water tank 300 and then naturally evaporated on the surface of the rotation unit 500 by a predetermined amount, so that the hydrogen fuel cell Even if the amount of discharged water generated in (100) increases or decreases irregularly, there is an advantage in that the amount of naturally evaporated discharged water can be kept constant. For example, even if a large amount of discharged water is generated in the hydrogen fuel cell 100 in a short time, there is an advantage in that it is possible to prevent the discharged water from being discharged in a liquid state without being vaporized.

At this time, the rotating unit 500 is coupled with a plurality of laminated plates 510 arranged in parallel to be spaced apart from each other so as to penetrate the plurality of laminated plates 510 in the thickness direction so as to maximize the surface area covered by the discharged water. It may be configured to include a central shaft 520 mounted to the water tank 300 in a structure capable of rotating. When the rotating unit 500 is configured as described above, discharged water in the water tank 300 is naturally evaporated in contact with discharged air after being deposited on the surface of a plurality of laminated plates 510. The exhaust air supplied to the inside of the water tank 300 through the first exhaust pipe 210 is set to flow into the second exhaust pipe 220 after passing through the space between the plurality of laminates 510. It is desirable to be

In addition, the exhaust water natural evaporation device for a hydrogen vehicle according to the present invention may be configured such that the rotation unit 500 rotates on its own without a separate driving device.

For example, as shown in FIG. 4 , the rotating unit 500 further includes a plurality of wing plates 530 arranged perpendicularly to the laminate plate 510 and inserted between two adjacent laminate plates 510 . In addition, the first exhaust pipe 210 may be disposed so that the exhaust air supplied to the inside of the water tank 300 collides with one surface of the wing plate 530. In this way, when the exhaust air supplied from the first exhaust pipe 210 presses one surface of the wing plate 530, the laminated plate 510 integrally coupled with the wing plate 530 and the central shaft 520 rotate clockwise. rotates in the direction As such, since the principle of rotation of the rotation unit 500 by the fluid pressure of the exhaust air is substantially the same as the principle of rotation of the waterwheel by the potential energy of water falling downward, the rotation unit 500 is rotated by the discharge air. A detailed description of the rotating principle will be omitted.

At this time, regardless of the angle of the rotation unit 500, so that the wing plate 530 can effectively receive the fluid pressure of the discharged air, the wing plate 530 is the center shaft as shown in FIG. 520) is preferably arranged radially.

In addition, as shown in this embodiment, the wing plate 530 may be provided only between two laminated plates 510 located in the middle, provided between a plurality of laminated plates 510, or between all laminated plates 510. may be provided in However, in order to effectively utilize the fluid pressure of the exhaust air supplied through the first exhaust pipe 210, the wing plate 530 is provided only between the two laminated plates 510 located in the middle, and the first exhaust pipe ( 210) is preferably configured to hit the wing plate 530 by injecting exhaust air in one straight direction.

Of course, when the rotation unit 500 cannot be smoothly rotated only by the injection pressure of the exhaust air, a separate driving unit for rotating the central shaft 520 may be added. Such a driving unit may be formed of any structure as long as it can rotate the central shaft 520 such as an electric motor or a pneumatic cylinder.

7 is a partial cross-sectional view of the water tank 300 included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention.

In the natural evaporation device for hydrogen vehicles according to the present invention, the discharged water generated from the hydrogen fuel cell 100 is primarily collected in the water tank 300. When the outside temperature is below freezing, the water discharged from the water tank 300 freezes. phenomenon may occur.

In this way, when the discharged water is frozen, natural evaporation is impossible, and the water tank 300 or the rotating unit 500 may be damaged as the discharged water expands during the freezing process.

As described above, in the natural evaporation device for hydrogen vehicles according to the present invention, a hot wire 310 may be embedded in the water tank 300 so that the discharged water does not freeze. In this way, when the heating wire 310 is embedded in the water tank 300, the heating wire 310 can be operated when the outside air temperature drops below freezing so that the discharged water in the water tank 300 does not freeze, so that the discharged water is naturally evaporated normally In addition, damage to the water tank 300 can be prevented.

At this time, the heating wire 310 may be installed at any part of the water tank 300, but it is preferable to be installed at a part where the drained water gathers, that is, on the floor so that the drained water can be more easily heated. In addition, the hot wire 310 may be replaced with any structure other than the structure shown in the present embodiment as long as it can transfer heat to the drained water in the water tank 300.

8 is a cross-sectional view of a silencer 400 included in the natural evaporation device for exhaust water for a hydrogen vehicle according to the present invention.

In general, as shown in FIG. 8 , a silencer 400 for a fuel cell is composed of a housing 410 having an inner space and glass fibers 420 filled in the housing 410 .

At this time, when the exhaust air flows into the muffler 400 along the second exhaust pipe 220 in a low ambient temperature state, the moisture contained in the exhaust air is converted into condensate in the muffler 400 and the glass fiber 420 ) can be wetted. In this way, when the glass fibers 420 get wet in the discharged water, not only the sound absorption effect is reduced, but also the housing 410 may be damaged if the discharged water is accumulated in the housing 410 for a long time.

In order to solve this problem, the natural evaporation device for hydrogen vehicles according to the present invention may further include a recovery pipe 240 for returning the condensed water that has fallen to the bottom of the silencer 400 to the water tank 300. have.

At this time, the return pipe 240 is coupled so that the inlet side (left side in this embodiment) communicates with the bottom surface of the silencer 400, and the outlet side (right side in this embodiment) is coupled so that it communicates with the water tank 300. . Therefore, the condensed water that is condensed inside the muffler 400 and falls to the bottom of the muffler 400 is returned to the water tank 300 through the recovery pipe 240, and then deposited on the surface of the rotary unit 500 and evaporated naturally.

On the other hand, the exhaust air delivered to the inside of the silencer 400 through the second exhaust pipe 220 must come into contact with as much glass fiber 420 as possible before being introduced into the third exhaust pipe 230 to effectively reduce noise. It can be. Therefore, as the length of the silencer 400 increases, the noise reduction effect of the exhaust air improves, but there is a limit to extending the length of the silencer 400 due to interference with other parts. Therefore, in the natural evaporation device for hydrogen vehicles according to the present invention, the exhaust air flow path inside the silencer 400 is formed in a zigzag pattern so as to increase the noise reduction efficiency of the exhaust air even if the length of the silencer 400 is not greatly increased. can be configured with For example, as shown in FIG. 8, the rear end (left end in this embodiment) of the second exhaust pipe 220 is adjacent to the rear inner wall (left inner wall in this embodiment) of the silencer 400. The third exhaust pipe 230 may be mounted so that its front end (right end in this embodiment) is adjacent to the front inner wall (right inner wall in this embodiment) of the silencer 400.

In this way, when the second exhaust pipe 220 and the third exhaust pipe 230 are overlapped in parallel with each other, the exhaust air delivered to the silencer 400 flows in a zigzag pattern along the direction of the solid line arrow. There is an advantage in that the contact time with the fiber 420 can be secured as long as possible, and thus the noise reduction effect is improved.

Meanwhile, the discharge air supplied through the second exhaust pipe 220 contains moisture. Some of the moisture contained in the discharge air is condensed inside the second exhaust pipe 220 in the direction indicated by the dotted line arrow in FIG. 8 . It falls down and is returned to the water tank 300 through the recovery pipe 240. At this time, if the second exhaust pipe 220 is located above the third exhaust pipe 230, condensate drawn from the second exhaust pipe 220 may flow into the third exhaust pipe 230.

Therefore, the third exhaust pipe 230 is preferably positioned above the second exhaust pipe 220 as shown in this embodiment.

9 is a partial cross-sectional view of the third exhaust pipe 230 included in the exhaust water natural evaporation device for a hydrogen vehicle according to the present invention.

Among the moisture contained in the exhaust air, the moisture condensed while passing through the second exhaust pipe 220 or the muffler 400 is returned to the water tank 300 through the recovery pipe 240 as described with reference to FIG. 8 . However, moisture condensed while passing through the third exhaust pipe 230 may be discharged to the outside as it is pushed by the flow pressure of the exhaust air. As such, there is a problem in that even when the condensate is discharged in a liquid state, it may cause icing of the road.

The natural evaporation device for hydrogen vehicles according to the present invention is configured so that the condensed water condensed in the third exhaust pipe 230 can be returned to the water tank 300 without being discharged to the outside so as to solve the above problems. can That is, as shown in FIG. 9, the natural evaporation device for hydrogen vehicles according to the present invention includes an auxiliary recovery pipe 250 for returning condensate that has fallen to the bottom of the third exhaust pipe 230 to the water tank 300. can be provided additionally.

Since one side of the auxiliary recovery pipe 250 in the longitudinal direction is coupled to communicate with the bottom surface of the third exhaust pipe 230 and the other side in the longitudinal direction is coupled to communicate with the water tank 300, the third exhaust pipe 230 The condensed water that is condensed and falls downward is introduced into the auxiliary recovery pipe 250 and then returned to the water tank 300.

On the other hand, the condensed water that has fallen to the bottom of the third exhaust pipe 230 is pushed toward the outlet side by the fluid pressure of the discharged air. 250) may not flow smoothly.

Therefore, it is preferable that a concave portion 232 for collecting condensed water is formed at the bottom of the outlet side of the third exhaust pipe 230, and the auxiliary recovery pipe 250 is connected to the bottom of the concave portion 232. Since the concave portion 232 is formed over a large area of the bottom surface of the third exhaust pipe 230, all the condensed water flowing along the bottom surface of the third exhaust pipe 230 flows into the concave portion 232. After being collected, it can be returned to the water tank 300 through the auxiliary collection pipe 250.

At this time, as the size of the concave portion 232 increases, the condensate collection efficiency increases, but if the size of the concave portion 232 is excessively large, the fluidity of the discharged air may be hindered. The shape and size should be appropriately selected according to various conditions, such as the specifications of the third exhaust pipe 230 and the auxiliary recovery pipe 250, the speed and pressure of the exhaust air, and the like.

In the above, the present invention has been described in detail using preferred embodiments, but the scope of the present invention is not limited to specific embodiments, and should be interpreted according to the appended claims. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: hydrogen fuel cell 210: first exhaust pipe
220: second exhaust pipe 230: third exhaust pipe
232: concave portion 240: recovery pipe
250: auxiliary recovery pipe 300: water tank
310: heat wire 400: silencer
410: housing 420: glass fiber
500: rotation unit 510: laminated plate
520: center shaft 530: wing plate

Claims (10)

A water tank having a discharged water storage space therein;
A silencer having a noise reduction function;
a first exhaust pipe for transferring exhaust water and exhaust air discharged from the hydrogen fuel cell to the water tank;
a second exhaust pipe for transferring exhaust air introduced into the water tank to the silencer;
a third exhaust pipe for discharging the exhaust air introduced into the silencer to the outside;
a rotation unit coupled to the inside of the water tank in a structure capable of rotating, and a lower part of the rotation unit configured to be submerged in the discharged water stored in the water tank;
Emission water natural evaporation device for hydrogen vehicles, characterized in that comprises a. The method of claim 1,
The rotating unit includes a plurality of laminated plates arranged in parallel so as to be spaced apart from each other, and a central shaft coupled to pass through the plurality of laminated plates in a thickness direction and mounted in the water tank in a structure capable of rotating,
Discharged water natural evaporation device for a hydrogen vehicle, characterized in that the exhaust air supplied to the inside of the water tank through the first exhaust pipe is configured to flow into the second exhaust pipe after passing through the plurality of laminated plate separation spaces. The method of claim 2,
Further comprising a plurality of wing plates arranged perpendicular to the laminate plate and inserted between two adjacent laminate plates,
The first exhaust pipe is arranged so that the exhaust air supplied into the water tank collides with one surface of the wing plate, so that the rotating unit is configured to rotate by the fluid pressure of the exhaust air. Discharge water natural evaporation device. The method of claim 3,
The wing plate is a natural evaporation device for hydrogen vehicles, characterized in that arranged radially around the central shaft. The method of claim 2,
Natural evaporation device for hydrogen vehicles, characterized in that it further comprises a drive unit for rotating the central shaft. The method of claim 1,
A natural evaporation device for hydrogen vehicles, characterized in that a hot wire is built into the bottom of the water tank. The method of claim 1,
Natural evaporation device for hydrogen vehicles, characterized in that it further comprises a recovery pipe for returning the condensed water that has fallen to the bottom of the silencer to the water tank. The method of claim 1,
The silencer includes a housing having an inner space and glass fibers filled inside the housing,
The second exhaust pipe is mounted so that its rear end is adjacent to the rear side inner wall of the silencer,
The third exhaust pipe is a natural evaporation device for hydrogen vehicles, characterized in that the front end is mounted adjacent to the inner wall of the front side of the silencer. The method of claim 8,
The third exhaust pipe is located on the upper side of the second exhaust pipe. The method of claim 1,
Further comprising an auxiliary recovery pipe for returning the condensate that has fallen to the bottom of the third exhaust pipe to the water tank,
A concave portion for collecting condensate is formed at the bottom of the outlet side of the third exhaust pipe, and the auxiliary recovery pipe is connected to the bottom of the concave portion.

Images