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How Hydrogen Fuel Cell Works
The operation of hydrogen fuel cells is a delicate and complex process.
Hydrogen, a leader in clean energy, plays a key role in the fuel cell system. At the beginning of its operation, hydrogen is transported to the anode through a specific pipeline. Here, under the action of a catalyst, the hydrogen molecules are cleverly disassembled. The hydrogen molecule contains two hydrogen atoms, each of which has a proton and an electron. In the catalytic environment of the anode, electrons and protons are separated from each other.
Electrons form an electric current through an external circuit, which can power various devices, such as vehicle drive motors, electronic devices, etc., just like a source of vitality for them. The protons pass through the proton exchange membrane and head towards the cathode.
At the cathode, oxygen is also in place simultaneously. Oxygen molecules receive electrons from the anode and combine with protons passing through the proton exchange membrane. The three cleverly converge, electrochemical reaction occurs, and finally water is generated. As the product of this process, water is clean and pollution-free, demonstrating the green characteristics of hydrogen fuel cells.
Hydrogen fuel cells use the above-mentioned delicate mechanism to efficiently convert the chemical energy contained in hydrogen into electricity, providing sustainable energy solutions for many fields. In today's era of pursuit of green development, its prospects are broad and significant.
Hydrogen, a leader in clean energy, plays a key role in the fuel cell system. At the beginning of its operation, hydrogen is transported to the anode through a specific pipeline. Here, under the action of a catalyst, the hydrogen molecules are cleverly disassembled. The hydrogen molecule contains two hydrogen atoms, each of which has a proton and an electron. In the catalytic environment of the anode, electrons and protons are separated from each other.
Electrons form an electric current through an external circuit, which can power various devices, such as vehicle drive motors, electronic devices, etc., just like a source of vitality for them. The protons pass through the proton exchange membrane and head towards the cathode.
At the cathode, oxygen is also in place simultaneously. Oxygen molecules receive electrons from the anode and combine with protons passing through the proton exchange membrane. The three cleverly converge, electrochemical reaction occurs, and finally water is generated. As the product of this process, water is clean and pollution-free, demonstrating the green characteristics of hydrogen fuel cells.
Hydrogen fuel cells use the above-mentioned delicate mechanism to efficiently convert the chemical energy contained in hydrogen into electricity, providing sustainable energy solutions for many fields. In today's era of pursuit of green development, its prospects are broad and significant.
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