JP2003092130A - Fuel cell - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress the stay of excess water in an inclined state. SOLUTION: A cell assembly formed by stacking a plurality of cells is fixed to the inside of a body casing 1 inclinable against a reference plane H. The body casing 1 is equipped with an inlet 3 from which humidified gas enters a gas passage between a plurality of cells; a first outlet 4 through which the humidified gas comes out from the gas passage; and a second outlet 5 through which the humidified gas comes out from the gas passage. The inlet 3 is arranged in the upper portion of the body casing 1, the first outlet 4 is arranged in the lower portion of the body casing 1, and the second outlet 5 is arranged in the lower portion of the body casing 1. The reference plane H is absolute to a coordinate system fixed to the globe. When the body casing 1 is inclined against the reference plane H, water introduced into the bottom 8 flows toward the second outlet 5 opposite to the first outlet 4 and is rapidly exhausted to the outside through an on-off valve 6 to avoid staying as the excess water in the gas passage, and deterioration in power generating performance is effectively suppressed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fuel cell which suppresses deterioration of drainage property when tilting.

[0002]

2. Description of the Related Art A fuel cell is a stack of unit cells.
The unit cell is formed of a power generation plate and a separator. The power generation plate is formed of an electrolyte membrane and electrodes on both sides of the electrolyte membrane. Gas passages are formed between the electrodes on both sides and the separators on both sides. A large number of such unit cells are laminated to form a laminated body.

The laminated body is fixedly housed in one casing. Two gas passages are formed on both sides of the cell between the adjacent separators. Two kinds of gases that react with each other to emit electrons are introduced into the gas passage. Water is produced by the reaction of the two gases.
The two gases react in a humidified state. The gas is introduced into the gas passage as a humidified gas from the inlet and discharged as a humidified gas from the outlet.

Excess water slows down the power generation reaction. Water is
Emission from the humidified gas outlet is important. Submarines that submerge and surface, submarines such as deep-sea research vessels, and automobiles that run on slopes are inclined with respect to a reference plane such as a horizontal plane according to their movement modes. In a fuel cell that is supported and mounted on such a moving body, water tends to partially accumulate during tilting. The water accumulated excessively in the gas passage causes a decrease in power generation capacity.

It is required that excessive water storage be suppressed during tilting.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to provide a fuel cell capable of suppressing excessive water storage during tilting.

[0007]

Means for solving the problem Means for solving the problem are expressed as follows. The technical matters appearing in the expression are accompanied by parentheses (), and numbers, symbols and the like are added. The numbers, symbols and the like are technical matters constituting at least one embodiment or plural examples of the embodiments or plural examples of the present invention, particularly the embodiment or examples. It corresponds to the reference numbers, reference symbols, etc. attached to the technical matters expressed in the drawings corresponding to. Such reference numbers and reference symbols clarify correspondences and bridges between the technical matters described in the claims and the technical matters of the embodiments or examples. Such correspondence / bridge does not mean that the technical matters described in the claims are limited to the technical matters of the embodiment or the examples.

The fuel cell according to the present invention has a reference plane (H).
The main body casing (1) is tiltable with respect to the main body casing (1) and a cell assembly in which a plurality of cells are stacked and fixedly arranged in the main body casing (1). The main body casing (1) has an inlet (3) through which humidified gas enters the gas flow path between the plurality of cells and a first humidified gas exits through the gas flow path
It has an outlet (4) and a second outlet (5) through which the humidified gas exits from the gas flow path. The inlet (3) is arranged in an upper part of the main body casing (1), the first outlet (4) is arranged in a lower part of the main body casing (1), and the second outlet (5) is arranged in the main body casing (1). Is located in the lower part of the. The reference plane (H) is absolute with respect to a coordinate system fixed to the earth.

When the body casing (1) is inclined with respect to the reference plane (H), the water guided to the bottom surface (8) is
It flows toward the second outlet (5) on the side opposite to the first outlet (4), but is quickly discharged to the outside of the casing (1) through the on-off valve (6), and becomes excessive water in the gas passage. It is possible to effectively suppress deterioration of power generation performance without staying.

The gas flow path is a horizontally oriented bottom surface (8) as described above.
It extends from above toward the bottom with a vertical component. When the casing body (1) is not inclined with respect to the reference plane (H), the plane passing through the first outlet (4) and the second outlet (5) is parallel to the reference plane (H), In this case, the reference plane (H) is horizontal. The first outlet (4) and the second outlet (5) are arranged on both sides of a plane orthogonal to the reference plane (H).

An on-off valve (6) is preferably added. The second outlet (5) is connected to the on-off valve (6).
A pump (7) is further added, and the pump (7) is connected to the open / close valve (6). By controlling the opening / closing of the on-off valve (6) and controlling the drive of the pump (7), excess water gathering in the vicinity of the second outlet (5) can be promptly and properly processed.
Can be excluded on the outside. Body casing (1)
It is effective to incline with respect to the reference plane (H) from the beginning as described later.

The fuel cell according to the present invention has a reference plane (H).
The main body casing (1) is tiltable with respect to the main body casing (1) and a cell assembly in which a plurality of cells are stacked and fixedly arranged in the main body casing (1). The main body casing (1) has an inlet (3) through which humidified gas enters the gas flow path between the plurality of cells and an outlet (4) through which humidified gas exits from the gas flow path. The inlet (3) is arranged in an upper part of the main body casing (1), and the outlet (4) is arranged in a lower part of the main body casing (1). When the body casing (1) is not tilted with respect to the reference plane (1), the bottom surface (8) of the gas flow path is tilted with respect to the horizontal plane, and the water in the gas flow path is tilted with respect to the bottom surface (8). It flows by the action of gravity and smoothly and promptly moves toward the outlet (4), and is quickly discharged from the outlet (4). The angle between the bottom surface (8) and the reference plane (H) preferably coincides with the angle at which the submarine tilts during ascent or dive.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Corresponding to the figures, a fuel cell according to the present invention has a humidified gas inlet / outlet provided in a main body casing. The main body casing 1 is formed in a substantially rectangular parallelepiped as shown in FIG. In the body casing 1, a cell stack 2 that is a power generator is fixedly housed. In the main body casing 1, a gas passage through which the humidified gas passes is formed. The gas passages are configured as planar passages, cross-shaped passages, or any other known type of passage configuration.

The main casing 1 is provided with an inlet 3 for receiving humidified gas, a first outlet 4 for discharging humidified gas together with water generated by the reaction, and a second outlet 5 for discharging humidified gas together with water generated by the reaction. It is provided. The inlet 3 is arranged in a relatively upper part of the body casing 1, the first outlet 4 is arranged in a relatively lower part of the body casing 1, and the second outlet 5 is compared to the body casing 1. It is arranged at a lower portion which is a lower side. Humidified gas introduced from the inlet 3 (example: humidified oxygen gas)
Passes through the gas passage and is mainly discharged from the first outlet 4. An opening / closing valve 6 is connected to the second outlet 5 outside the main body casing 1. The on-off valve 6 includes a main body casing 1
A pump 7 is connected outside the.

The gas passage has a bottom surface 8. Bottom 8
Can be formed in a multi-layered manner from the bottom to the top. The main body casing 1 has a reference plane H (example: horizontal plane)
It is supported so that it can freely tilt. Body casing 1
Is supported by a moving object. A submersible is preferably exemplified as the moving object. FIG. 1 shows a tilted state in which the main body casing 1 is tilted at an angle θ with respect to the reference plane H. The first outlet 4 is arranged in two casing portions located on both sides of a plane orthogonal to the reference plane H.

When the main body casing 1 is not inclined with respect to the reference plane H, the bottom surface 8 is designed to be a horizontal plane. The humidified gas inserted from the inlet 3 and water or steam generated in the main body casing 1 pass through the gas passage while reacting, are guided to the bottom surface 8 which is a horizontal surface, and are discharged from the first outlet 4. . It is possible to use a pump for its discharge.

When the body casing 1 is inclined with respect to the reference plane H, the bottom surface 8 is inclined at an angle θ with respect to the horizontal plane which is the reference plane, as shown in FIG. The humidified gas inserted from the inlet 3 and the water or steam generated in the main body casing 1 pass through the gas passage while reacting, and are guided to the bottom surface 8 which is a horizontal surface and flow down the bottom surface 8.
Collect in the lower part of the casing part on the side where the second outlet 5 is located. Such a cluster is detected by a sensor (not shown). The on-off valve 6 is opened by the detection. The water collected in the lower part of the casing portion on the side where the second outlet 5 is arranged is sucked by the pump 7 together with the humidified gas, the generated water, or the generated steam, and the outside of the main body casing 1 via the opening / closing valve 6. Is discharged to. The water and gas discharged in this way are temporarily stored in a reservoir (not shown) and are recycled in a circulating manner.

As shown in FIG. 1, the water collected in the partial space in the inclined casing is discharged to the outside of the main body casing 1 before it becomes excessive water and deteriorates the power generation performance. No excess water will accumulate in the gas passage of the above and will not stay.

FIG. 2 shows another embodiment of the fuel cell according to the present invention. The configurations of the main body casing 1 and the gas passages in the main body casing 1 are exactly the same as those of the embodiment described above. In the present embodiment, the bottom surface 8 formed in the main body casing 1 that is not inclined with respect to the reference plane H is inclined at an angle θ with respect to the horizontal plane that is the reference plane H. The humidified gas and water flow down on the bottom surface 8 by the action of gravity, toward the first outlet 4, and are smoothly discharged from the first outlet 4. If the moving body is tilted, the main body casing 1 is tilted by an angle θ with respect to the reference plane H, and the bottom surface 8 is aligned with or parallel to the reference plane H, the water in the main body casing 1 is Is directed to the first outlet 4 and smoothly discharged from the bottom surface 8.

According to another embodiment of the fuel cell according to the invention, the second outlet 5 of the embodiment of FIG. 1 already described is not particularly necessary. The angle θ is preferably exemplified by 30 degrees which is an inclination angle allowed for the submersible. It is useful to provide another outlet 5 as shown in FIG. 1 on the side opposite to the outlet 5 to accommodate the possibility of tilting beyond the set angle θ.

[0021]

EFFECTS OF THE INVENTION The fuel cell according to the present invention can immediately suppress a decrease in power generation efficiency during tilting.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of a fuel cell according to the present invention.

FIG. 2 is a front view showing another embodiment of the fuel cell according to the present invention.

[Explanation of symbols]

1 ... Main body casing 3 ... Entrance 4 ... 1st exit (exit) 5 ... Exit 2 6 ... Open / close valve 7 ... Pump 8 ... Bottom H ... Reference plane

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Toshihiro Tani             1-1 Satinoura Town, Nagasaki City, Nagasaki Prefecture Mitsubishi Heavy Industries             Nagasaki Shipyard Co., Ltd. F-term (reference) 5H026 AA02 CX10 HH03

Claims (8)

[Claims] 1. A main body casing, which is tiltable with respect to a reference plane, and a cell assembly in which a plurality of cells are fixedly arranged in the main body casing, wherein the main body casing includes the plurality of cells. An inlet through which the humidified gas enters the gas flow passage between the cells, a first outlet through which the humidified gas exits through the gas passage, and a second outlet through which the humidified gas exits through the gas passage. Is arranged in an upper part of the main body casing, the first outlet is arranged in a lower part of the main body casing, and the second outlet is arranged in a lower part of the main body casing. 2. The fuel cell according to claim 1, wherein the gas passage extends with a vertical component. 3. The fuel cell according to claim 1, wherein a plane passing through the first outlet and the second outlet is parallel to the reference plane, and the reference plane is horizontal. 4. The fuel cell, wherein the first outlet and the second outlet are arranged on both sides of a plane orthogonal to the reference plane. 5. The fuel cell according to claim 1, further comprising an opening / closing valve, wherein the second outlet is connected to the opening / closing valve. 6. The fuel cell according to claim 5, further comprising a pump, wherein the pump is connected to the on-off valve. 7. A main body casing that is tiltable with respect to a reference plane, and a cell assembly that is fixedly arranged in the main body casing and has a plurality of stacked cells. An inlet into which the humidified gas enters the gas flow path between the cells, and an outlet from which the humidified gas exits from the gas flow path, the inlet is disposed at an upper portion of the main body casing, and the outlet is the main body casing. The bottom surface of the gas channel is inclined with respect to a horizontal plane when the main body casing is not inclined with respect to the reference plane, and the water in the gas channel is inclined with respect to the bottom surface. A fuel cell that flows toward the outlet by gravity. 8. The angle between the bottom surface and the reference plane is
8. The fuel cell according to claim 7, wherein the submersible is inclined at the time of ascending or diving.