![]() Autotrophic microbial communities, however, perform these reactions under standard temperature and pressure. Because of its high stability, CO 2-activation/fixation represents a true challenge for chemists. Microbial Metabolism Group, Max Planck Institute for Marine Microbiology, Bremen, Germanyĭomestication of CO 2-fixation became a worldwide priority enhanced by the will to convert this greenhouse gas into fuels and valuable chemicals.Lemaire, Marion Jespersen and Tristan Wagner * The “Virtual Lab” for Catalysis in Sustainability develops innovative strategies to produce renewable energy, fuel, chemicals, and energy storage solutions via the computational design of efficient thermo- and electro-catalytic processes.Olivier N.This interdisciplinary strategy combines catalyst design, simulations, electrolyzers, and technoeconomic analysis to identify and convert CO 2 in useful products for energy storage and chemical synthesis. The Ross Lab actively focuses on recycling CO 2 into valuable products using renewably-powered electrocatalysis.The feed gases are excited to plasma using Radio Frequency waves. They reform carbon dioxide in presence of methane/hydrogen. The Carreon Research Group is aiming to understand the interaction of hydrogen with different catalysts, as different catalysts promote different reaction products for same feed gases.The Multiphase and Reacting Flow Laboratory, led by Noah Van Dam, focuses on high-fidelity modeling of multiphase and reacting flows, and verification, validation and uncertainty quantification techniques for computational fluid dynamics models of complex flows.Key research expertise of this laboratory include high temperature pyrolysis, gasification, oxidation experiments, and molecular and detailed kinetic modeling. The Sustainability and Reaction Engineering Laboratory (SuREL) focuses on utilizing both experimental and theoretical techniques to study modern energy and environmental problems.The Re-Engineered Energy Laboratory (REng|Lab) conducts research involving novel approaches to utilize concentrated solar radiation and nonequilibrium plasmas for the conversion of low-value feedstock, such as carbon dioxide and methane, into added-value products. ![]() The Energy & Combustion Research Laboratory (ECRL) is focused on developing solutions to the energy problems facing our world, exploring a variety of topics ranging from alternative fuels and novel thermodynamic cycles to combustion-assisted material synthesis.The Ryan Research Lab works in various interdisciplinary areas and includes research on liquid and supercritical carbon dioxide droplets, which are stabilized by particles to create emulsions that have several advantages for carbon dioxide sequestration in geologic formations or the deep oceans and can also be employed for enhanced oil recovery and other valuable applications.Carreon says that "specific emphasis will be given to the conversion of greenhouse gases such as CO 2 and CH 4.” Read more in the InsideLowell article, " Trahan Announces $1 million dollars in federal funding for UMass Lowell". This technology could potentially expand employment and business opportunities in this field. Plasma catalysis will be investigated as a more sustainable alternative to dry methane reforming. Maria Carreon received an NSF CAREER Award of $538,659 for "Cold plasma intensified perovskite membrane technology for CO 2 utilization,” a project aiming to reach energy-efficient and flexible chemical processing conditions. Read more in the article: Chemistry Lab Makes Scientific Discovery This discovery could help expand the applications of light-absorbing nanoparticles, with implications for everything from Covid-19 testing applications to new ways to recycle CO2 into a renewable energy source. Michael Ross and his lab group of students and postdocs found that metallic alloy nanoparticles absorb higher energies of light in research funded by the NSF and Office of Naval Research.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |