New biofuels recipe: iron with a pinch of palladium
Scientists have combined iron and palladium to form a new catalyst for converting biomass into fuels fit for today's gas tanks. It's part of an effort to make biofuels more energy dense, and therefore more competitive with fossil fuels.
Scientists have combined iron and palladium to form a new catalyst for converting biomass into fuels fit for today's gas tanks. It's part of an effort to make biofuels more energy dense, and therefore more competitive with fossil fuels.
Biofuels are renewable and clean alternatives to fossil fuels, but they can be difficult to produce because their source, biomass, contains a fair amount of oxygen. That makes them less stable, too viscous and less efficient than the fuels they鈥檙e meant to replace.
Using iron as a catalyst to remove the oxygen is inexpensive, but the water in organic biomass can rust the iron, canceling its effectiveness. Another metal, palladium, is rust resistant, but it鈥檚 not as efficient as iron in removing the oxygen, and it鈥檚 far more expensive than plentiful iron.
So researchers at Washington State University (WSU) and the U.S. Department of Energy鈥檚 Pacific Northwest National Laboratory (PNNL) decided to聽combine the two. (Related: New Cellulosic Ethanol Plant Commercializes Renewable Fuel)
Evoking images of Julia Child in a lab coat and goggles, they added just a pinch of palladium to iron, a recipe that efficiently removes oxygen from biomass without the rust. A meal fit for a gourmet, as it were, at the cost of a cheeseburger.
The paper on their work was chosen as the cover story in the October issue of the scientific journal聽ACS Catalysis. In it, the researchers said they discovered that combining iron with very small amounts of palladium helped to cover the catalyst鈥檚 surface with hydrogen, which accelerates the process of turning biomass into biofuel.
鈥淲ith biofuels, you need to remove as much oxygen as possible to gain energy density,鈥 Yong Wang, who led the research,聽told the WSU news department. 鈥淥f course, in the process, you want to minimize the costs of oxygen removal.鈥
Kitchen metaphors aside, Wang鈥檚 team didn鈥檛 limit themselves to skillets, knives and can openers, but relied instead on high-resolution transmission electron microscopy, X-ray photoelectron spectroscopy and extended X-ray absorption fine structure spectroscopy. In other words, very sophisticated gear.
These tools led them to understand how the atoms on the surface of the two different catalysts 鈥 one made solely of iron, the other made solely of palladium 鈥 react with the biomass lignin, the woody material found in most plants. Wang said this led to the idea of combining the two metals. (Related: U.S. Firm Angers Dubliners With Plan For Waste-to-Energy Generator)
鈥淭he synergy between the palladium and the iron is incredible,鈥 said Wang, who holds a joint appointment with Pacific Northwest National Laboratory and WSU. 鈥淲hen combined, the catalyst is far better than the metals alone in terms of activity, stability and selectivity.鈥
The goal of the research is to create what are known as 鈥渄rop-in biofuels鈥 鈥 direct substitutes for gasoline, diesel fuel and jet fuel that can be used interchangeably with fossil fuels in today鈥檚 vehicles. So far, that effort has failed because today鈥檚 biofuels have too much oxygen and are thus less efficient than fossil fuels and can even damage systems built for fossil fuels.
To date, Wang鈥檚 team has converted biomass into biofuel only in a laboratory. Now, he said, he鈥檇 like to expand his work and move it to an environment that鈥檚 more like a biofuel production plant.
By Andy Tully of Oilprice.com
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