The Promise of Hydrogen: Clean Fuel from Waste Plastic?

Category Science

tldr #

The new process of producing hydrogen from plastic waste created by researchers at Rice University generates no carbon emissions, while creating valuable graphene as a byproduct. This process could potentially produce hydrogen for free, while providing new possibilities for decarbonizing industry and energy storage.


content #

Hydrogen could be a green fuel of the future, but at present it’s mainly made out of fossil fuels in a process that generates a lot of CO2. A new technique, however, generates hydrogen gas from plastic waste with no direct carbon emissions, while creating valuable graphene as a byproduct.

Batteries are currently the leading approach to decarbonizing transportation, but using hydrogen as a fuel still has considerable advantages. It has significantly higher energy density, which could give hydrogen-powered vehicles greater range, and refueling with hydrogen is much faster than recharging a battery. It’s also a promising fuel for heavy industries like steelmaking that can’t be easily electrified and could be useful for long-term energy storage.

The flash joule heating process used to generate hydrogen can reach temperatures of up to 5,000 degrees Fahrenheit in just 4 seconds

Hydrogen’s green credentials depend heavily on how it’s produced though. Using electricity to split water into hydrogen and oxygen can be sustainable if powered by renewable energy. But the process is currently very expensive, and most hydrogen today is instead made by reacting methane from fossil fuels with steam, producing considerable amounts of CO2 as a byproduct.

A promising new process developed by researchers at Rice University generates hydrogen from plastic waste without directly emitting CO2. Of course, it too would need to be powered by renewable energy. But in addition to yielding hydrogen, the process also produces commercial-grade graphene as a byproduct, which can be sold to pay for the hydrogen production. "We converted waste plastics—including mixed waste plastics that don’t have to be sorted by type or washed—into high-yield hydrogen gas and high-value graphene," Kevin Wyss, who led the research while doing his PhD at Rice, said in a press release. "If the produced graphene is sold at only 5 percent of current market value—a 95 percent off sale—clean hydrogen could be produced for free." .

The graphene byproduct created can be sold to pay for the the production of hydrogen

The new process relies on a technique known as flash joule heating, which was developed in the lab of Rice professor James Tour. It involves grinding plastic into confetti-size pieces, mixing it with a conductive material, placing it in a tube, and then passing a very high voltage through it. This heats the mixture to around 5,000 degrees Fahrenheit in just 4 seconds, causing the carbon atoms in the plastic to fuse together into graphene and releasing a mix of volatile gases.

Hydrogen's energy density is significantly higher than a battery, giving hydrogen-powered vehicles greater range

The lab initially focused on using the technique to turn waste plastic into graphene, and Tour founded a startup called Universal Matter to commercialize the process. But after analyzing the composition of the vapor byproducts, the team realized they contained a significant amount of hydrogen gas with a purity as high as 94 percent. The results were published in a recent paper in Advanced Materials.

It is a promising fuel for industries such as steelmaking, which can't be easily electrified

By locking up all the plastic’s carbon in graphene, the approach produces hydrogen without releasing any CO2. And the economics are very attractive compared to other methods of producing green hydrogen—the feedstock is a waste product, and selling the graphene for even a fraction of the current market price essentially means the hydrogen is being produced for free.

Getting the process to work at the same scale as current hydrogen production will take considerable further investment and research. But the implications of this technology, if successful, are significant in terms of the possibilities for decarbonizing industry and creating new possibilities for energy storage.

The feedstock used for the new process is waste plastic, so the hydrogen could potentially be produced for free

hashtags #
worddensity #

Share