星空无限传媒

Supporting Farms and Chemical Manufacturing

First E-RISE grant to Louisiana will create jobs and solutions to transform agricultural wastes into liquid fuels for transportation, opening new revenue streams for Louisiana鈥檚 farmers and the state鈥檚 chemical industry.

The latest big energy win for 星空无限传媒 Louisiana leverages both of the state鈥檚 leading industries and core research priorities for LSU鈥攅nergy and agriculture.

鈥淭his extraordinary award, $7 million, shows how LSU researchers are creating solutions that support Louisiana鈥檚 economy, our farmers, and most important industries,鈥� LSU Interim President Matt Lee said. 鈥淲e continue to build strong teams that bring innovation and jobs and allow us to do what we do best鈥攚in for Louisiana.鈥�

鈥淭hrough this team鈥檚 research, Louisiana will make more diesel, jet fuel, and gasoline using biomass,鈥� said John Flake, associate vice president of research and a professor of chemical engineering 星空无限传媒. 鈥淭his is a natural fit for Louisiana for two reasons. We are kings of biomass, and we have the capacity to refine, blend, and ship liquid fuels. All huge advantages.鈥�

LSU鈥檚 statewide team is led by Ingmar Schoegl, associate professor of mechanical engineering in the LSU College of Engineering, in partnership with Dorin Boldor, professor of biological and agricultural engineering in the LSU AgCenter with a joint appointment in the LSU College of Engineering. Education and research partners include Louisiana Tech University, Southern University, University of Louisiana at Lafayette, and River Parishes Community College, all of which already collaborate on research and workforce development as part of the LSU-led $160 million , also funded by the National Science Foundation (NSF) and announced last year.

While FUEL works to position Louisiana as the world鈥檚 energy leader by helping the state produce more energy and more globally competitive chemicals and fuels, the team led by Schoegl is specifically focused on new ways to create liquid fuels from agricultural waste. Both projects leverage Louisiana鈥檚 plants, pipelines, ports, and people to drive energy innovation for economic impact.

Most of the state鈥檚 chemical manufacturing plants are located along the Mississippi River, which theoretically could collect more than 40% of the nation鈥檚 agricultural wastes by barge to Louisiana for processing into high-value liquid fuels. In Louisiana, the state鈥檚 leading producers of sugarcane, timber, and lumber could integrate new fuel production facilities with their existing processing plants and use their residual biomass to make fuels they can either sell or use in their own operations.

鈥淭his is all about linking up agriculture and the chemical industry here in Louisiana and turning waste into value,鈥� Schoegl said. 鈥淟ouisiana is like a switchboard with all the pipelines we have that distribute fuel across the country. So, we already have the existing infrastructure to make this work, and the Mississippi River that can transport products very efficiently. Basically, this is the most logical place to perform this research and make it practical and profitable for industry to use while educating a larger technical workforce to run it all.鈥�

鈥淭he beauty of this project is that we couple two seemingly separate industries to create a new generation of products that can be used in the petrochemical industry in Louisiana,鈥� Boldor said. 鈥淎ll the state鈥檚 sugar mills generate mountains and mountains of sugarcane bagasse, which is their leftover product. And it鈥檚 just sort of sitting, in the open field, because they can鈥檛 use it for anything鈥攐nly a small fraction is used to power their operations during harvesting season. So, this is ripe for us to use as feedstocks in our processes, improved by the electrochemical technology that is being developed here 星空无限传媒.鈥�

E-RISE is an acronym for EPSCoR Research Incubators for STEM Excellence. The full name of the NSF award is E-RISE RII, where the last three letters stand for Research Infrastructure Improvement, which includes teambuilding. LSU鈥檚 statewide team represents a wide variety of disciplines, from chemistry and chemical engineering to agriculture, computational modeling, and economic analysis.

鈥淛oining this team marks a significant milestone for our institution,鈥� said Donovan Thompson, dean of River Parishes Community College鈥檚 Energy Sciences Division and executive director of its Energy Partners for Innovation and Collaboration (EPIC) consortium. 鈥淭ogether with 星空无限传媒 our partners, we鈥檒l develop cutting-edge course modules and workshops focused on bio-electric fuel technologies鈥攁 field entirely new to our college鈥檚 curriculum鈥攁nd provide students with hands-on, work-based learning experiences to prepare them to be leaders in the rapidly evolving energy expansion.鈥�

鈥淚f you ride by any one of our 11 raw sugar mills throughout Louisiana, you鈥檒l see mountains of sugarcane bagasse that has collected over the years. In total, about three million tons are added each harvest season. Bagasse is a waste product and expensive to move, and wherever it goes, it costs money to store or takes land out of production. This research project led by LSU to turn bagasse into fuel could make our state鈥檚 number-one row crop industry even more sustainable and profitable to keep us producing for another 200 years.鈥�

Atticus Finger, director of research for the American Sugar Cane League

The novelty of Schoegl鈥檚 team鈥檚 research will be to combine electrochemical processing with biomass pyrolysis. Pyrolysis is the heating of an organic material, such as biomass, in the absence of oxygen. You typically get three products: a gas, a liquid, and a solid char residue. The liquid is usually separated into two fractions鈥攁 lighter part made up of mostly water, acids, and alcohols, and a heavier, oily part that is similar to petroleum. Historically, makers of biofuel or biodiesel have burned the gas, purged the light liquid, and used only the oil, with the char residue being discarded or added to soil. Schoegl鈥檚 team, meanwhile, will allow liquid fuels to be made from the gas and both parts of the liquid, while the char, which has a high carbon content, could be converted into other types of products.

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