Princeton Researchers Develop Self-Regulating Fuel Cell Stack

Using the water produced by a fuel cell to regulate the flow of hydrogen, researchers have made it act like an internal combustion engine--the more hydrogen you put in, the more power you get out

Published: 21-Jan-2007

Fuel cells powered by hydrogen are delicate systems. Too little water in the system and the special membranes that allow electricity to be generated dry up, shutting the chemical reaction down. Too much water and the droplets can block the hydrogen gas from interacting with the electrodes, shutting the chemical reaction down. But researchers at Princeton University have discovered ways to make such fuel cells hardier by making them both self-draining and self-regulating, according to a paper in the February Chemical Engineering Science.

Claire Woo, an undergraduate student in the lab of chemical engineer Jay Benziger, attempted to find a way to make the lab's patented self-draining fuel cell 100 percent efficient, using just as much hydrogen gas as was supplied. Typical commercial fuel cells only use up to 40 percent of the hydrogen and require recycling systems to bring unused gas back into the reaction chamber. Instead of such a recycling system, Woo added a water tank to collect any excess formed during the chemical reaction. Because gravity already pulls any forming water down into a pool at the bottom of the reaction chamber, Woo could control the overall size of the reaction by the amount of hydrogen gas she allowed to flow into the chamber.

When she increased the flow of hydrogen, it pushed excess water out of the chamber and freed up more of the cell for power production. Conversely, when she added less fuel, more water filled the chamber, blocking part of the reactive surface. "The water would flow in and out of the fuel cell to give a variable area where its size was matched to the power," Benziger says. "Instead of throwing away all of the water, we're letting some of it continue to accumulate."


The FCX+HES combination can supply power to the grid and pull power from the grid as needs change throughout the day.

Nuvera's automotive fuel cell technology featured in the Fiat Panda Hydrogen was officially presented at the first Hydrogen Olympics in Turin, Italy.

Cars equipped with a rotary engine feature a dual-fuel system that allows the driver to select either hydrogen or gasoline with the flick of a switch.


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