JP3294088B2 - Fuel cell system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fuel cell system which can be applied to a power supply device for a mobile object or a power supply device installed at a place where people cannot easily reach such as a lighthouse on a remote island.

[0002]

2. Description of the Related Art As is well known, conventional fuel cells use natural gas, coal gasified gas or the like as fuel, and the surplus is returned to a fuel supply system or supplied as a working fluid to a gas turbine or the like. The generated water was collected in a water treatment device. As a result, the fuel cell becomes a component of the combined power generation system, and the entire system becomes large-scale.
The components have become complicated. In addition, it is a fuel consumption type system that performs only power generation.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and uses a hydrogen gas and an oxygen gas generated by electrolysis of water as a fuel and an oxidizing agent for a fuel cell. Is a completely closed system, which eliminates fuel consumption and emissions and provides a clean and compact fuel cell system .

[0004]

The present invention provides a solid electrolyte water electrolyzer, a water tank containing water to be supplied to the water electrolyzer, a power supply for supplying electricity to the water electrolyzer, A first gas-liquid separator for removing water from the hydrogen and oxygen generated in the water electrolysis device and returning the water to the water tank; a hydrogen tank for storing hydrogen generated in the water electrolysis device; An oxygen tank that stores the oxygen generated in the above, a solid electrolyte fuel cell that generates electricity by reacting hydrogen from the hydrogen tank with oxygen from the oxygen tank, and a hydrogen and oxygen system of the solid electrolyte fuel cell. A second gas-liquid separator that removes water from the exhaust gas and returns the water to the water tank; and a compressor that returns the gas from which the water has been removed by the second gas-liquid separator to the hydrogen tank and the oxygen tank. To do Is a fuel cell system characterized.

That is, in the closed fuel cell system according to the present invention, as a fuel supply system, a water tank for storing water, a water pump for absorbing and sending water in the water tank, a solid electrolyte water electrolysis device, A power supply device for supplying electricity to the electrolysis device, a first gas-liquid separator for separating water from hydrogen and oxygen generated in the water electrolysis device, a hydrogen tank, an oxygen tank, a compressor, piping, and water and hydrogen gas thereof A plurality of valves for controlling the flow of oxygen gas, and a second gas-liquid separator, a pipe for sending water separated by the gas-liquid separator to the water tank, It is characterized by being provided with piping and a plurality of valves for returning hydrogen and oxygen gas separated by the liquid separation device to respective tanks.

In the present invention, when there is surplus power (for example, when a solar cell is operating), water is guided from a water tank to a solid electrolyte water electrolysis device, and this is electrolyzed into oxygen and hydrogen. Generated hydrogen and oxygen are stored separately in tanks. Excess water is collected in a water tank. When power is required, the gas stored in the hydrogen tank and the oxygen tank is guided to the fuel electrode and the air electrode of the solid oxide fuel cell to generate power. Generated water is collected in a water tank. Unreacted hydrogen and oxygen gas are returned to the respective tanks.

[0007]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
This will be described with reference to FIG. FIG. 1 shows a system in a case where the present invention is mounted on space equipment such as artificial hygiene for aviation in outer space. Reference numeral 1 in the figure is a solid electrolyte water electrolysis device. A water tank 3 is connected to the water electrolysis device 1 via a pipe provided with a water pump 2. In addition, a solar cell 4 as a power supply device is connected to the water electrolysis device 1. The water electrolysis device 1 includes a first gas-liquid separator 5
a and 5b are connected. Here, a gas purification device 6a is connected to one of the gas-liquid separators 5a, and a second gas-liquid separator 8a is connected to the gas purification device 6a via valves 7a and 7b. A gas purifier 6b is connected to the other gas-liquid separator 5b, and a second gas-liquid separator 8b is connected to the gas purifier 6b via valves 7c and 7d. The second gas-liquid separators 8a and 8b are both connected to the water tank 3.

A path connecting the pipe between the valves 7a and 7b and the second gas-liquid separator 8a includes a compressor 9a, a hydrogen tank 10, a valve 7e, a humidifier 11, and a solid electrolyte fuel cell 12
Are sequentially provided. In a path connecting the pipe between the valves 7c and 7d and the second gas-liquid separator 8b, a compressor 9b, an oxygen tank 13, a valve 7f, the humidifier 11, and a solid electrolyte fuel cell 12 are sequentially provided. ing. Reference numerals 7g, 7h and 7i in the figure denote valves, and reference numeral 14 denotes an electric output of the solid electrolyte fuel cell 12.

The operation of the closed type fuel cell system having such a configuration is as follows. First, the water stored in the water tank 3 is pressurized by the water pump 2 and sent to the water electrolysis device 1. Here, electric power is supplied from the solar cell 4 and electrolyzed into hydrogen and oxygen gas. The generated hydrogen gas and oxygen gas are supplied to the first gas-liquid separators 5a and 5a, respectively.
After removing the water in b, the purity is increased by the gas purifiers 6a and 6b, pressurized by the compressors 9a and 9b, and stored in the hydrogen tank 10 and the oxygen tank 13. The water separated by the first gas-liquid separators 5a and 5b is returned to the water tank 3 via the valves 7h and 7i.

The hydrogen of the fuel of the solid electrolyte fuel cell 12 is stored in a hydrogen tank 10 and the oxygen of the oxidant is stored in an oxygen tank 13. The humidifier 11 is humidified to a saturated vapor pressure through valves 7e and 7f when necessary. After that, it is led to the solid electrolyte fuel cell 12, where power is generated. The water source of the humidifier 11 branches from the water pump outlet of the water supply system of the solid electrolyte water electrolysis device 1. The water produced by the fuel cell is separated by the second gas-liquid separator 8 b generated on the air electrode side, and collected in the water tank 3. Excess hydrogen and oxygen are returned to the hydrogen tank 10 and the oxygen tank 13 after removing moisture in the gas-liquid separators 8a and 8b.

The closed type fuel cell system according to the above embodiment has a water supply tank 3 for storing water, a water pump 2 for absorbing water in the water tank 3 and sending it downstream, as a fuel supply system.
Solid electrolyte water electrolysis device 1, solar cell 4 for supplying electricity to water electrolysis device 1, first gas-liquid separators 6a and 6b for separating water from hydrogen and oxygen generated in the water electrolysis device, hydrogen tank , An oxygen tank 13, compressors 9a and 9b, pipes and a plurality of valves 7a to 7i for controlling the flow of water, hydrogen gas and oxygen gas, and a second gas-liquid separator 8a as a product discharge system. , 8b, a pipe for sending water separated by the gas-liquid separator to the water tank 3, a pipe for returning hydrogen and oxygen gas separated by the gas-liquid separator to the respective tanks 10 and 13, and a plurality of valves It is characterized by having. Therefore, the following effects are obtained.

(1) It is possible to form a chargeable / dischargeable closed fuel system that can effectively use surplus power. (2) Clean fuel cell system with no fuel and no emissions.

(3) Since pure oxygen is used, the efficiency of the fuel cell is higher than when air is used. (4) Since it is compact and easy to handle, it can be mounted on moving objects.
In the above embodiment, the case where the present invention is mounted on space equipment such as artificial sanitation for aviation in outer space has been described. However, the present invention is not limited to this. It can be applied to a power supply device installed in a place where it is difficult to move.

[0014]

As described in detail above, according to the present invention,
By using hydrogen gas and oxygen gas generated by the electrolysis of water as fuel and oxidant for the fuel cell, the system is completely closed, thereby eliminating fuel consumption and emission, and clean and compact fuel cell. System
System can be provided.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of a fuel cell system according to one embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Solid electrolyte water electrolysis apparatus, 2 ... Water pump, 3 ... Water tank, 4 ... Solar cell, 5a, 5b, 8
a, 8b: gas-liquid separator, 6a, 6b: gas purification device, 7
a to 7i: valves, 9a, 9b: compressor, 10 ...
Hydrogen tank, 11 humidifier, 12 solid electrolyte fuel cell, 13 oxygen tank, 14 electric output.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Akira Yamada 5-717-1 Fukahori-cho, Nagasaki-shi, Nagasaki Mitsubishi Heavy Industries, Ltd. Nagasaki Research Laboratory (56) References JP-A-7-99707 (JP, A) Kaisho 59-139578 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H01M 8/00, 8/04, 8/06

Claims (1)

(57) [Claims] 1. A solid electrolyte water electrolysis device, a water tank containing water to be supplied to the water electrolysis device, a power supply device for supplying electricity to the water electrolysis device, and hydrogen generated by the water electrolysis device A first gas-liquid separator for removing moisture from oxygen and returning to the water tank, a hydrogen tank for storing hydrogen generated by the water electrolysis device, and storing oxygen generated by the water electrolysis device. An oxygen tank, a solid electrolyte fuel cell that generates electricity by reacting hydrogen from the hydrogen tank and oxygen from the oxygen tank, and removing water from the hydrogen and oxygen-based exhaust of the solid electrolyte fuel cell, respectively. A fuel cell comprising: a second gas-liquid separator for returning to the water tank; and a compressor for returning the gas from which moisture has been removed by the second gas-liquid separator to the hydrogen tank and the oxygen tank. system .