JPH06333589A - Method for utilizing exhaust gas of fuel cell - Google Patents

Abstract

PURPOSE:To effectively utilize exhaust gas by sending the exhaust gas generated at reforming a fossil fuel by a reformer to a plant house to absorb carbon dioxide and generate oxygen, and also heating the plant house by the heat. CONSTITUTION:A fossil fuel supplied to a fuel cell 1 is reformed into high purity hydrogen by a reformer 2, and this gas fuel is reacted with the electrode in a cell 3 to generate electricity. The energy conversion loss in the cell 3 is exhausted as exhaust heat, which is used for endothermic reaction of fuel reforming. The used exhaust gas is supplied to a plant house 14 to make plants absorb the carbon dioxide in the exhaust gas by photosynthesis by sunlight and generate oxygen, and the plant house 14 is also heated by the heat.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of utilizing exhaust gas of a fuel cell, and more specifically, supplying a fossil fuel such as petroleum, coal or natural gas to a fuel cell for reforming or reaction in a battery cell. The present invention relates to a method for effectively utilizing and purifying exhaust gas that sometimes occurs.

[0002]

2. Description of the Related Art Conventionally, a fuel cell that uses fossil fuel such as petroleum, coal, or natural gas to generate electric power instead of thermal power generation is well known. As shown in FIG. 2, the structure of the fuel cell 1 is roughly divided into a reformer 2 and a battery cell 3.
And an inverter 4.

In the fuel cell 1 as described above, the above-mentioned fossil fuel is reformed into high-purity hydrogen in the reformer 2 into a gaseous fuel,
This gaseous fuel is reacted with the electrodes of the battery cells 3, that is, the fuel cell body to generate electricity. Since the electricity generated in the battery cell 3 in this way is a DC output, it is converted into an AC output by the inverter 4, that is, a power converter, and taken out.

Further, in the fuel cell 1, a phosphoric acid type fuel cell, a molten carbonate type fuel cell, a high temperature solid electrolyte type fuel cell and the like are known as the cell 3 or the fuel cell body. The energy conversion loss in the fuel cell main body 3 is discharged as waste heat and is used in the endothermic reaction of the fuel reforming in the reformer 2 to improve the power generation efficiency.

[0005]

In the fuel cell as described above, high temperature (about 50 ° C.) exhaust gas is discharged from the reformer 2, and the composition of this exhaust gas depends on, for example, the fossil fuel supplied. In the case of natural gas, H ₂ O is about 10%, CO ₂
Is about 6%, N ₂ is about 75%, and O ₂ is about 9%.

[0006] Conventionally, exhaust gas is generally discharged through a desulfurization device, a denitration device (not shown) or the like as a means for preventing pollution of the exhaust gas. However, CO ₂ or carbon dioxide is considerably contained in the exhaust gas released to the atmosphere even through these pollution control means, which is not environmentally preferable and can be further purified and released to the atmosphere. Is desired.

An object of the present invention is to solve the above-mentioned conventional problems. Exhaust gas produced when fossil fuel is supplied to a fuel cell for reforming and is reacted in a battery cell to obtain electric power. It is an object of the present invention to provide a method of utilizing exhaust gas of a fuel cell, which effectively utilizes and purifies the exhaust gas.

[0008]

The present invention has been made to solve the above technical problems by adopting the following configuration. That is, the present invention is a method of utilizing an exhaust gas generated when a fossil fuel such as petroleum, coal or natural gas is supplied and reformed and reacted in a battery cell.
Then, the present invention, in a fuel cell comprising a reformer for reforming fossil fuel, a battery cell and an inverter, sends exhaust gas generated when the fossil fuel is reformed by the reformer to the plant house for photosynthesis. The plant absorbs carbon dioxide in the exhaust gas and generates oxygen, and heats the exhaust gas to heat the inside of the plant house 14 to promote the growth of the plant.

Further, the present invention relates to a fuel cell comprising a reformer for reforming fossil fuel, a battery cell and an inverter, wherein exhaust gas produced when reforming fossil fuel by the reformer is used as a plant house in the daytime. Is fed to photosynthesis to cause plants to absorb the carbon dioxide in the exhaust gas and generate oxygen, and the heat contained in the exhaust gas heats the inside of the plant house to promote the growth of plants at night. Is passed through a heat exchanger, and exhaust heat is recovered and used by this heat exchanger.

[0010]

According to the method of using exhaust gas of a fuel cell of the present invention, the fossil fuel supplied to the fuel cell is reformed into high-purity hydrogen by the reformer, and this gaseous fuel reacts with the electrode in the battery cell to generate electricity. To do. The energy conversion loss in the battery cell is discharged as waste heat and used for the endothermic reaction of fuel reforming.

The exhaust gas generated during the fuel reforming and the exhaust gas used for the endothermic reaction are supplied into the plant house, and the plants absorb carbon dioxide in the exhaust gas by photosynthesis by sunlight to generate oxygen. At the same time, the plant house is heated by the heat at the same time.

At night, the exhaust gas from the fuel cell is passed through a heat exchanger to recover the heat, which is then stored in a heat storage unit for timely use such as multipurpose heating.

[0013]

EXAMPLES An example of the method for utilizing the exhaust gas of the fuel cell of the present invention will be described in detail below. FIG. 1 schematically shows an apparatus 10 for implementing a method for utilizing exhaust gas of a fuel cell according to an embodiment of the present invention.

The exhaust gas utilization device 10 is a fuel cell 1
The exhaust main pipe 11 is connected to the reformer 2 and discharges the exhaust gas from the reformer 2. This exhaust main 1
One end is connected to two exhaust branch pipes 12 and 13. One exhaust branch pipe 12 communicates with the inside of the plant house 14, and the other exhaust branch pipe 13 is open to the atmosphere via the heat exchanger 15.

The exhaust branch pipes 12 and 13 are provided with dampers or closing valve devices 16 and 17 upstream of the plant house 14 and the heat exchanger 15, respectively. These closing valve devices 16 and 17 are such that when one closing valve device 16 is open, the other closing valve device 17 is closed or vice versa.
Alternatively, both closing valve devices 16 and 17 are configured to be controlled by means (not shown) so as to be opened.

Instead of installing the closing valve devices 16 and 17 as described above, a switching valve may be provided at the connecting portion 18 between the exhaust pipe main pipe 11 and the two exhaust branch pipes 16 and 17. Also in this case, this switching valve needs to be configured so that both exhaust branch pipes 12 and 13 are not closed at the same time, and both exhaust branch pipes 12 and 13 can be brought into communication with each other. Is good.

Further, the heat exchanger 15 is connected to a heat storage device or a versatile heater 19 so that the heat exchanged and recovered by the heat exchanger 15 can be accumulated or versatile heated.

Next, the operation of the method for utilizing the exhaust gas of the fuel cell of the present invention will be described. The fossil fuel supplied to the fuel cell 1 is reformed into high-purity hydrogen by the reformer 2, and this gaseous fuel reacts with the electrodes in the battery cells 3 to generate electricity. Battery cell 3
The loss of energy conversion at is discharged as waste heat and used for endothermic reaction of fuel reforming.

The exhaust gas used for the endothermic reaction of the fuel reforming is supplied into the plant house 14 through the exhaust main pipe 11 and the exhaust branch pipe 12, and the plants are exhausted by the photosynthesis by the sun rays. Carbon dioxide is absorbed, oxygen is generated, and the plant house 14 is simultaneously heated by the heat.

It is preferable that the exhaust gas is introduced into the plant house 14 only during the daytime when the plant is illuminated with sunlight in order to utilize the absorption of carbon dioxide into the plant by photosynthesis. 16 is opened and the other damper 17 is closed.

On the other hand, at night, since absorption of carbon dioxide into the plants at the plant house cannot be expected, one damper 16 is closed and the other damper 17 is opened to heat the exhaust gas from the fuel cell 1. The heat is stored in the heat exchanger 19 through the exchanger 15 or is heat-heated by the heat storage device 19 or is used for various purposes, and is used in a timely manner.

As described above, the exhaust gas having a relatively high temperature emitted from the fuel cell 1 is supplied to the plant house 14 in the daytime so that the plants absorb carbon dioxide and generate oxygen, and at night, the heat exchanger 15 generates the oxygen. By recovering and utilizing the heat, environmental problems can be solved to some extent, and the waste heat in the exhaust gas can be used more effectively.

[0023]

As described above, according to the method for utilizing the exhaust gas of the fuel cell of the present invention, carbon dioxide in the exhaust gas generated from the fuel cell can be purified and released into the atmosphere. That is, it is possible to prevent the problem of the air pollution, to effectively use the carbon dioxide and heat contained in the exhaust gas, and to promote the growth of plants by photosynthesis, and to save energy. It has excellent effects such as

[Brief description of drawings]

FIG. 1 is a structural explanatory view schematically showing an apparatus for carrying out an exhaust gas utilization method for a fuel cell according to an embodiment of the present invention.

FIG. 2 is a configuration explanatory view schematically showing a configuration of a fuel cell.

[Explanation of symbols]

 1 Fuel Cell 2 Reformer 3 Battery Cell 4 Inverter 10 Exhaust Gas Utilizing Device 11 Exhaust Main 12 Exhaust Branch 13 Exhaust Branch 14 Plant House 15 Heat Exchanger 16 Damper 17 Damper 18 Connection 19 Heat Storage (Multipurpose Heating) vessel)

Claims (2)

[Claims] 1. In a fuel cell comprising a reformer for reforming fossil fuel, a battery cell and an inverter, exhaust gas generated when reforming fossil fuel by the reformer is sent to a plant house, and photosynthesis is performed. A method for using exhaust gas of a fuel cell, wherein a plant absorbs carbon dioxide in the exhaust gas and generates oxygen, and heats the exhaust gas to heat the inside of the plant house. 2. In a fuel cell comprising a reformer for reforming fossil fuel, a battery cell and an inverter, exhaust gas generated when reforming fossil fuel by the reformer is sent to a plant house in the daytime. Photosynthesis causes plants to absorb carbon dioxide in the exhaust gas and generate oxygen, and the heat contained in the exhaust gas heats the inside of the plant house, and at night, passes through a heat exchanger to exchange the heat. A method of using exhaust gas from a fuel cell, which comprises recovering and using exhaust heat in a reactor.