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Team Finds Way to Clean Up Coal, Harvest Hydrogen

Team Finds Way to Clean Up Coal, Harvest Hydrogen
Chemistry professors John Ferraris, Kenneth Balkus and Inga Musselman are creating a special type of membrane to separate out hydrogen from coal plant emissions.

(麻豆淫院Org.com) -- The Department of Energy's (DOE) Office of Fossil Energy has awarded researchers at UT Dallas $1 million over three years to create a new class of membranes that produce hydrogen from coal while scrubbing out greenhouse gases like carbon dioxide.

Chemistry professors John Ferraris, Kenneth Balkus and Inga Musselman are creating a class of mixed-matrix membranes based on Metal-Organic Frameworks (MOFs), which are crystalline compounds with specialized metal clusters that act as molecular filters, or sieves. The filters are designed to chemically convert emissions to produce hydrogen, a crucial and emerging fuel for clean energy.

Current filters utilize palladium to separate gas emissions. Palladium, which is typically imported, is a rare, expensive metal that generates a vast amount of carbon dioxide when it is refined. The DOE charged the team with finding an alternative to palladium and improving the production of hydrogen to expand the domestic supply of clean energy.

鈥淭he combined expertise of this team is an enabling force,鈥 said Ferraris, an organic/polymer chemist who heads the chemistry department. 鈥淒r. Balkus is an expert in , and Dr. Musselman is an expert analytical chemist. The combination of these backgrounds allows us to synthesize new filtration membranes, to test them and to analyze their effectiveness. Few research teams can address the 鈥榗leaner coal challenge鈥 with this particular mix of chemistry expertise.鈥

Ferraris said the team is crafting new, custom membranes beginning with polymers that have already been identified as good gas separators. Energy production from coal releases carbon dioxide and other gasses that membranes can filter out, such as hydrogen.

鈥淚t鈥檚 difficult to separate hydrogen from ,鈥 Ferraris said. 鈥淏ut doing so is hugely important in making coal as clean as it can be while supplying the hydrogen we need for other energy applications.鈥

According to Balkus, the MOFs they鈥檙e developing seek to overcome some of the limitations of other gas membranes and avoiding the cost and environmental damage of harvesting and producing the palladium.

鈥淚magine a helium balloon, the morning after you bring it home,鈥 Balkus said. 鈥淭he balloon remains inflated, but it sinks to the ground because some of the helium has diffused out. This is an example of one particular gas diffusing through the pores in the balloon鈥檚 surface. Our membranes will function in the same way, but they have to be efficient, cost-effective and flexible and they must endure the extreme temperatures and pressures found in coal plants.鈥

Musselman said the membranes in development are a mixture of polymer and MOF compounds, rather than a sandwich of layers. The advantage to using a mixture, instead of layers, is that the sieves perform more efficiently and predictably across their entire surface.

鈥淲e鈥檙e trying to develop uniform membranes with very specific properties,鈥 Musselman said. 鈥淲e鈥檙e using a specialized acoustic mixer to uniformly distribute the materials in our membranes.鈥

The team, which students have dubbed the 鈥淔BI鈥 (for Ferraris, Balkus and Inga), has collaborated for more than 16 years of continuously funded research aimed at using chemistry to clean up coal. This past year, in addition to the $1 million grant, they were awarded $300,000 from the DOE - University Coal Research Program and $300,000 from the National Science Foundation for other separation projects.

鈥淲ind, solar and other renewable energy sources are the future,鈥 Ferraris said. 鈥淏ut it will be decades before those energy sources replace coal. If we鈥檙e successful, current coal plants could be retrofitted with our cleaner technology.鈥

Citation: Team Finds Way to Clean Up Coal, Harvest Hydrogen (2010, March 3) retrieved 2 July 2025 from /news/2010-03-team-coal-harvest-hydrogen.html
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