| 摘要 |
A method for generating extra power on fuel cell power generation system in using oxygen enriched gas is disclosed. A first fuel cell power generation system is provided, having a fuel cell device, an oxygen separator, a hydrogen generation apparatus and an air compressor connected to the oxygen separator, and a second fuel cell power generation system is provided having the fuel cell device, the hydrogen generation apparatus and the air compressor connected to the oxygen separator. The method includes: introducing the hydrogen generated by the hydrogen generation apparatus for the anode of the fuel cell device, and introducing the compressed air generated by the air compressor and oxygen enriched gas generated by oxygen separator for the cathode of the fuel cell device respectively, to generate electrical power. The extra power is defined by:;Z=K×G×V×(5×E×F-1)-XK×G×V-Y×100%;where Z is proportional to a fuel cell number of the fuel cell device. |
| 主权项 |
1. A method for generating extra power on fuel cell power generation system in using oxygen enriched gas, the method comprising:
coupling an oxygen separator to a cathode of a fuel cell device, and a hydrogen generation apparatus to an anode of the fuel cell device respectively, to form a first fuel cell power generation system, wherein the first fuel cell power generation system comprises the fuel cell device, the oxygen separator, the hydrogen generation apparatus and an air compressor connected to the oxygen separator; generating hydrogen by the hydrogen generation apparatus; generating compressed air by the air compressor, and sending the compressed air to the oxygen separator; generating oxygen enriched gas by the oxygen separator from the compressed air received from the air compressor; introducing the oxygen enriched gas generated by the oxygen separator into the cathode of the fuel cell device, and introducing the hydrogen generated by the hydrogen generation apparatus into the anode of the fuel cell device, to generate electrical power from the fuel cell device; and powering the oxygen separator and the air compressor using a portion of the electrical power generated from the fuel cell device; wherein the first fuel cell power generation system is configured to generate extra power comparing to a second fuel cell power generation system operated under same conditions as the first fuel cell power generation system without using the oxygen separator, the second fuel cell power generation system comprising the fuel cell device, the hydrogen generation apparatus and the air compressor coupled directly to the cathode of the fuel cell device, and using the hydrogen generated by the hydrogen generation apparatus and the compressed air generated by the air compressor for the anode and the cathode of the fuel cell device respectively to generate electrical power; wherein the extra power is defined by a formula as follows:Z=K×G×V×(5×E×F-1)-XK×G×V-Y×100% wherein:
Z is a net extra power ratio of a net electrical power output difference between the first fuel cell power generation system and the second fuel cell power generation system to a second net electrical power output by the second fuel cell power generation system, wherein the net electrical power output difference is a difference between a first net electrical power output by the first fuel cell power generation system and the second net electrical power output by the second fuel cell power generation system;K is a characteristic factor of the electrical power generated by categories of the fuel cell device of the first fuel cell power generation system and the second fuel cell power generation system, respectively;E is a required volume of the oxygen enriched gas generated by the oxygen separator of the first fuel cell power generation system;F is a performance increase factor of using the required volume of the oxygen enriched gas in the fuel cell device of the first fuel cell power generation system;G is a required volume of air by the air compressor of the first fuel cell power generation system, and by the air compressor of the second fuel cell power generation system, respectively;V is an operating voltage by the fuel cell device of the first fuel cell power generation system, and by the fuel cell device of the second fuel cell power generation system, respectively;X is the portion of the electrical power generated by the fuel cell device used by the oxygen separator of the first fuel cell power generation system; andY is the portion of the electrical power used by the air compressor of the first fuel cell power generation system, and by the air compressor of the second fuel cell power generation system; wherein Z is proportional to a fuel cell number of the fuel cell device in a series connection. |
