PEM Fuel Cell

NedStack’s proprietary electrode, membrane, cell plate and stack technology is a strong feature. Unique cell plate material enables the design and manufacturing of low-cost cell plates. Resulting in high efficient and recyclable stacks, at atmospheric pressure, giving NedStack an advantage over its competitors. NedStack has over 20 patents and pending patent applications, protecting NedStack’s technology and products. NedStack is licensing part of its PEM fuel cell technology to selected customers and suppliers. NedStack PEM fuel cell have a number of features that make them very attractive.

A fuel cell is a device in which the energy of an electrochemical reaction is converted directly (so without combustion) into electricity and heat. In most fuel cells this reaction needs hydrogen and oxygen. The only by-product is ultra pure water. The fuel can be hydrogen in its pure form, reformat, or a hydrocarbon like (bio)methanol, (bio)ethanol or glycol. The fuel cell keeps operating as long as a fuel is supplied.

Fuel cells show a very high efficiency, because they do not produce harmful emissions. The basic working principle of the fuel cell has been known for a long time, as it was invented as early as in 1839.
But the high cost and short lifespan of traditional fuel cells, have so far prevented their large-scale introduction.

Proton Exchange Membrane – PEM fuel cell.

Several different types of fuel cell exist, but all are based on the same principle. Two electrodes are separated by an electrolyte. The electrolyte carries charged species between the electrodes, whilst the negatively charged electrons are carried through an external circuit, thus creating an electrical current. NedStack concentrates on the development of PEM fuel cells. In comparison to the other types of fuel cells, PEM fuel cells have the shortest start-up time and the highest power density. These properties make PEM fuel cell well suited for portable, automotive and most stationary applications.

NedStack’s proprietary electrode, membrane, cell plate and stack technology is a strong feature.Unique cell plate material enables the design and manufacturing of low-cost cell plates. Resulting in high efficient and recyclable stacks, at atmospheric pressure, giving NedStack an advantage over its competitors. NedStack has over 20 patents and pending patent applications, protecting NedStack’s technology and products. NedStack is licensing part of its PEM fuel cell technology to selected customers and suppliers.

NedStack PEM fuel cell have a number of features that make them very attractive. A fuel cell is a device in which the energy of an electrochemical reaction is converted directly (so without combustion) into electricity and heat. In most fuel cells this reaction needs hydrogen and oxygen. The only by-product is ultra pure water. The fuel can be hydrogen in its pure form, reformat, or a hydrocarbon like (bio)methanol, (bio)ethanol or glycol. The fuel cell keeps operating as long as a fuel is supplied. 

Fuel cells show a very high efficiency, because they do not produce harmful emissions. The basic working principle of the fuel cell has been known for a long time, as it was invented as early as in 1839. But the high cost and short lifespan of traditional fuel cells, have so far prevented their large-scale introduction. Proton Exchange Membrane – PEM fuel cell. Several different types of fuel cell exist, but all are based on the same principle. Two electrodes are separated by an electrolyte. 

The electrolyte carries charged species between the electrodes, whilst the negatively charged electrons are carried through an external circuit, thus creating an electrical current. NedStack concentrates on the development of PEM fuel cells. In comparison to the other types of fuel cells, PEM fuel cells have the shortest start-up time and the highest power density. These properties make PEM fuel cell well suited for portable, automotive and most stationary applications.