Professor’s Work Shows Potential in Energy Industry
Continuing his work to improve the energy industry, Dr. Jason E. Bara is creating new materials he hopes can respond to future energy challenges.
Bara, UA associate professor of chemical and biological engineering, was recently awarded a grant by the U.S. Department of Energy to further study the structure of these patented materials designed to more efficiently separate gases related to energy processes. He is investigating their functions as gas separation membranes to clean emissions or separate fuel and chemical feedstocks using a fraction of the energy needed for current methods.
Dr. C. Heath Turner, UA professor of chemical and biological engineering, is working with Bara running computational modeling of the materials.
In December, Bara and several of his students were awarded a U.S. patent for a class of polymers he called rigid, ionic polyimide materials, essentially positively-charged chains of repeating molecules. The novel material platform joins high-performance polymers with charged molecules, allowing them to form sophisticated structures tailored to an application.
“Until now no one has created a charged polymer that follows this kind of formula,” Bara said.
Currently, membranes are not yet widely used in these applications, but they have tremendous promise to compete with distillation and absorption, the two most widely used separations technologies for gas processing.
“Separations cost a lot of energy,” Bara said. “Distillation columns, for example, are something most people don’t tend to think about because we don’t see them on a day-to-day basis, but they are a huge part of U.S. and global energy consumption from oil refineries to the chemical industry to ethanol plants.
“If membranes could replace distillation columns, we will save a lot of energy,” he said. “There is a need to invest in this research because the ultimate reward is gigantic in terms of energy and cost savings, which, in turn, will have positive impacts on the environment.”
For now, though, Bara wants to understand how the materials interact at the molecular levels to predict their behavior while also identifying the most promising structures to use as gas separation membranes.
The number of possible materials described by Bara’s patent is in the hundreds of thousands, so Turner will help model arrangements and behavior on computers to help Bara’s lab decide which materials to make physically.
“We’ve got an application, and, at the same time, we’re going to make some really cool polymers and see how they perform in that application and continuously iterate new generations of materials,” Bara said. “It’s always important to have performance targets in mind, but this research is also about what we learn along the way and the knowledge that brings to the community working in this area.”