PEM technology (proton exchange membrane) electrolyzer

PEM electrolyzers can respond quickly to the typical fluctuations of renewable energy generation, and PEM technology is ideal for grid balancing and meeting energy shortages.

Proton exchange membrane (PEM) electrolyzers use only renewable electricity and water to produce green hydrogen through a process known as electrolysis.The hydrogen produced can be stored in gas or liquid form, or released into the gas pipeline grid. It is used as a clean vehicle fuel, or for use in a wide range of industrial processes to reduce emissions from heavy industry.

 

Renewable energy cannot generate electricity on demand, PEM electrolyzer technology can convert green electricity into green hydrogen for storage and use it when needed. As the cost of renewable electricity continues to decline, more green hydrogen will be produced.

 

We develop modular PEM electrolyzers, stackable electrolyzers, you can deploy a single module to meet smaller green hydrogen needs, or achieve larger production capacity by combining multiple PEM electrolyzers

 

Using only water and renewable energy, the PEM electrolyzer produces the only truly clean hydrogen - green. The only by-product is oxygen which, like hydrogen, is emitted into the atmosphere without any negative effects.

 

PEM electrolyzers in industrial decarbonization, harnessing the power of green hydrogen to help decarbonize the mobility, industrial chemical and power-to-gas industries. Green Hydrogen never stops running.

The hydrogen produced by electrolysis has variety of uses. It can be fed into the gas pipeline grid to reduce or replace natural gas; it can be used on-site in heavy industrial applications such as steel manufacturing, power plants or chemical plants. It can also be used in fuel cell electric vehicles (FCEVs).

 

Fuel Cell Electric Vehicles (FCEVs) are deemed to be the future of the automotive market, especially in the heavy-duty transportation industry. These vehicles use a battery powertrain similar to a battery electric vehicle (BEV), but with a smaller battery that is continuously powered from a fuel cell. A fuel cell performs the opposite reaction to an electrolyzer. Hydrogen is fed in and combined with air. In the presence of a platinum-based catalyst, water is formed and electricity is generated. When used in an FCEV, it constantly charges the battery while the hydrogen fuel acts as a range extender. Therefore, the experience of driving an FCEV is more similar to a diesel or gasoline car, which can be driven ong-term charging and parking, and can be refueled quickly through the pump

 

Strategies, hydrogen networks and hydrogen valleys are emerging globally. These include hydrogen formed by CCUS steam methane reforming (so-called "blue hydrogen") and "green hydrogen" produced by electrolysis. These networks include gas stations, key industrial applications and existing natural gas networks.

 

We are committed to improving membrane electrodes and developing catalysts for this market and firmly believe that our world needs decarbonization.

 

Iridium is an ideal metal for use as an anode catalyst in PEM electrolyzers and is most active for OER (Oxygen Evolution Reaction).

 

Platinum is an ideal metal for use as a cathode catalyst in PEM fuel cells and is the best choice for ORR (Oxygen Reduction Reaction).

 

About Us

We are technical specialists in green hydrogen services, and developing cutting-edge technologies to design and produce PEM (Proton Exchange Membrane) electrolyzers to meet the new uses of hydrogen in the fields of transportation, industry and energy storage. Relying on strong R .& D and rigorous manufacturing processes to provide its customers with competitive and reliable systems to meet users needs, we develop technical solutions are particularly suited for renewable energy, demonstrating high efficiency and performance