Audited Supplier
Our reactor uses hydrogen as a fuel source to generate electricity in a clean and efficient manner. Unlike traditional power generators, our fuel cell reactor produces no harmful emissions or pollutants, making it an ideal choice for those who prioritize sustainability and environmental responsibility.
At the heart of our product is a cutting-edge proton exchange membrane (PEM) fuel cell, which converts hydrogen into electricity through an electrochemical reaction. Our reactor is designed to be easy to use and operate, requiring only a source of hydrogen and an electrical load to begin generating power. With no moving parts and minimal maintenance requirements, our fuel cell reactor provides a reliable and hassle-free source of electricity for a wide range of applications.
Whether you're looking to power your home, business, or off-grid cabin, our hydrogen fuel cell reactor delivers the performance and reliability you need. With a compact and modular design, our reactor can be easily scaled up or down to meet your specific power requirements. And with a high power density and quick start-up time, our reactor delivers reliable power whenever and wherever you need it.
Invest in the future of energy with the Hydrogen Fuel Cell Reactor - the clean, efficient, and sustainable solution to your power needs.
| Product name | Hydrogen fuel cell reactor |
| Number of reactor segments | 420 |
| Rated power | 140kw |
| Peak power | 150kw |
| Operating ambient temperature | -30ºC~45ºC |
| Design life | >10000H |
| * Customizing products according to customer requirements. | |
The hydrogen gas is fed into the anode side of the fuel cell reactor, where it reacts with a platinum-based catalyst to produce protons and electrons. The protons pass through the electrolyte membrane to reach the cathode side, while the electrons are forced to flow through an external circuit to reach the cathode. This flow of electrons generates electrical current that can be used to power electrical devices.
At the cathode side, oxygen gas is fed into the fuel cell reactor, and it reacts with the protons and electrons to form water and heat. The water vapor and heat are the only by-products of the reaction, making the fuel cell reactor a clean and efficient energy source.
Overall, a hydrogen fuel cell reactor is a reliable and efficient energy source that operates through an electrochemical process, with a modular and scalable design that makes it suitable for a wide range of applications.
| Transportation | Portable Electronics | Backup Power |
| Fuel cell vehicles (FCVs) use hydrogen fuel cells to power electric motors, offering a zero-emission alternative to conventional internal combustion engines. They can be used in cars, buses, trucks, and even trains and ships. | Hydrogen fuel cells can power small electronic devices like smartphones, laptops, and tablets, providing longer battery life and faster charging. | Fuel cells can serve as backup power systems for critical infrastructure, such as data centers, hospitals, and emergency response centers. They ensure uninterrupted electricity supply during power outages. |
| Remote Power Generation | Stationary Power Generation | Material Handling |
| In remote or off-grid locations, fuel cells can provide reliable electricity for communities or remote installations, such as weather stations and telecommunication towers. | Fuel cells can be used as stationary power plants to generate electricity for homes, businesses, and industrial facilities, operating as distributed energy systems. | Hydrogen fuel cells power forklifts and other industrial vehicles, offering longer operating times and faster refueling compared to traditional battery-powered equipment. |
| Membrane Electrode | Bipolar Plate | Catalyst |
| Collector Plate | Hydrogen Fuel Cell Titanium Mesh | Nickel Mesh For Hydrogen Fuel Cells |
