Wednesday, November 13, 2024

Soda Cans And Seawater Create Clean Fuel

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The process of mixing purified aluminum from soda cans with seawater produces hydrogen, with caffeine speeding up the reaction, making it suitable for marine vehicles.

MIT engineers Aly Kombargi (left) and Niko Tsakiris (right) work on a new hydrogen reactor, designed to produce hydrogen gas by mixing aluminum pellets with seawater.
Credits:Photo: Tony Pulsone
MIT engineers Aly Kombargi (left) and Niko Tsakiris (right) work on a new hydrogen reactor, designed to produce hydrogen gas by mixing aluminum pellets with seawater.
Credits:Photo: Tony Pulsone

MIT engineers have discovered that purified aluminum from soda cans can produce hydrogen when mixed with seawater. This method uses a rare-metal alloy treatment on aluminum and seawater’s salt ions for a sustainable reaction cycle. By adding a small concentration of imidazole from caffeine to the mix, they reduced hydrogen production time from two hours to five minutes. Building on this, they’re developing a compact reactor that uses aluminum pellets, gallium-indium, and caffeine with seawater to generate hydrogen on demand for powering marine and underwater vehicles.

Shields up

Researchers have identified aluminum as a potential solution due to its abundant availability and stability. When aluminum contacts water, it undergoes a simple chemical reaction that generates hydrogen and heat. However, this reaction faces a significant challenge: aluminum needs to be in a pure, exposed state to generate hydrogen. As soon as aluminum is exposed to oxygen, such as in air, it forms a thin oxide layer on its surface that acts as a barrier, preventing further reactions. This oxide layer is why hydrogen does not immediately form when a soda can is dropped in water.

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By the sea

In their research, the team discovered that using an ion-rich solution allows them to retrieve and reuse gallium indium. These ions prevent the metal alloy from reacting with water and enable it to precipitate for reuse. They found that adding aluminum to filtered seawater produced hydrogen, but more slowly than in freshwater, because seawater ions form a barrier around the aluminum, slowing its reaction. To speed up the process, the researchers tested various unconventional ingredients.

The researchers think they can operate a sustainable hydrogen reactor and plan to first test it in marine and underwater vehicles. They estimate that a reactor with about 40 pounds of aluminum pellets could power a small underwater glider for 30 days by using surrounding seawater to generate hydrogen for a motor.

Nidhi Agarwal
Nidhi Agarwal
Nidhi Agarwal is a journalist at EFY. She is an Electronics and Communication Engineer with over five years of academic experience. Her expertise lies in working with development boards and IoT cloud. She enjoys writing as it enables her to share her knowledge and insights related to electronics, with like-minded techies.

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