| PI | Co-PIs | Project | ||||||||
| Ramesh Agarwal |
| Numerical Modeling and Simulation of CO2 Sequestration in Saline Aquifers | ||||||||
| Mark Conradi |
| Development of State-of-the-Art NMR Spectroscopy and Imaging for Utilization and Sequestration of CO2 | ||||||||
| Daniel Giammar |
| Coupled Geochemical and Transport Processes in Geologic Carbon Sequestration:Evolution of Geochemical Gradients and Flow Properties in Diffusion-Limited Zones | ||||||||
| Daniel Giammar |
| Impact of Microstructure on the Containment and Migration of CO2 in Fractured Basalts co-funded by U.S. Department of Energy | ||||||||
| Young-Shin Jun |
| Mechanisms and Kinetics of Multiphase Fluid-formation Mineral Reactions in CO2 Geologic Sequestration | ||||||||
| Young-Shin Jun |
| Understanding and Controlling Chemical Reactions and Dynamics for Safer Carbon Dioxide Sequestration by Mesoscale Engineering Approaches |
| PI | Co-PIs | Project | ||||
| Richard Axelbaum |
| Air-Fired and Oxy-Combustion of Coal and Biomass to Reduce Greenhouse Gas Emissions | ||||
| Marcus Foston |
| Addressing Challenges to Market Implementation of Co-Firing of Torrefied Biomass |
| PI | Co-PIs | Project | ||||||||
| Richard Axelbaum |
| Integrated Flue Gas Purification and Latent Heat Recovery for Pressurized Oxy-Combustion co-funded by U.S. Department of Energy | ||||||||
| Pratim Biswas |
| Evaluation of Mercury and Other Heavy Metals (Fine Particles) Capture Methodologies in Coal Combustion Systems | ||||||||
| Daniel Giammar |
| Life Cycle of Metals in Coal Combustion: Metal release and capture, speciation in flyash, and transformations during ash reuse and storage | ||||||||
| Daniel Giammar |
| Iron Electrocoagulation for Efficient Removal of Selenium from Flue Gas Desulfurization Wastewaters |
| PI | Co-PIs | Project | ||||||||||
| Shankar Sastry |
| Utilization of Fly Ash for Fire-proof Geopolymer Resins and Aluminum and Polymer Matrix Composites for Aerospace and Automotive Applications |
