![]() 1:35 p.m.ĭirect Air Reactive Capture and Conversion for Utility-Scale Energy Storage (FWP-FEW0277) Michelle Krynock, National Energy Technology Laboratory Overview of Carbon Conversion Life Cycle Analysis at NETL NETL's In-House Carbon Conversion Researchĭouglas Kauffman, National Energy Technology Laboratory Joseph Stoffa, National Energy Technology Laboratory Matthew Realff, Georgia Institute of TechnologyĪdvancing a Low-Temperature, Low-Cost Direct Air Capture System Based on Organic Chemistry (FE0032269)Īdvanced Engineered Structures for High Performance Direct Air Capture System (FE0032261)īench-Scale Development of Promoted High-Capacity Structured Sorbents (FE0032254) Ryan Lively, Georgia Institute of technologyĪmine Infused ePTFE/SiO 2 Laminate Structured Sorbents as an Advanced Direct Air Capture System (FE0032278) 4:10 p.m.ĭirect Air Capture with Fiber Sorbents: Module, Design and Fabrication (FE0032129) ![]() Kunlei Liu and Ayokunie Omosebi, University of KentuckyĪIRCO 2 Contactor: Advanced Integrated Reticular Sorbent-Coated System to CO 2 Using an Additively-Manufactured Contactor (FE0032126)Įnergy-Efficient Direct Air Capture System for High Purity CO 2 Separation (FE0032128) Gupta and Andrew Tong, Susteon, Inc.Įlectrochemically Regenerated Solvent for Direct Air Capture with Cogeneration of Hydrogen at Bench-Scale (FE0032125) 1:35 p.m.Īccelerated Life Cycle Testing of Advanced Structured Material Systems for Direct Air Capture (FE0032099)īench Scale Development of a Novel Direct Air Capture Technology using High Capacity Structured Sorbents (FE0032118) Ravi Jain and Norberto Lemcoff, InnoSepra LLCĮlectrochemically-Driven Carbon Dioxide Separation (FE0031955)ĭirect Air Capture using Trapped Small Amines in Hierarchical Nanoporous Capsules on Porous Electrospun Fibers (FE0031969)īench-Scale Testing of Monolithic PPI Structured Contactors for Direct Air Capture of CO 2 (FE0032094) Transformational Sorbent Materials for a Substantial Reduction in the Energy Requirement for Direct Air Capture (FE0031953) Membrane-Sorbent Hybrid System for Post-Combustion Carbon Capture (FE0031603) Large Pilot Testing of the MTR Membrane Post-Combustion CO 2 Capture Process (FE0031587)īrice Freeman, Membrane Technology and Research, Inc. Stephanie Brownstein, University of Illinois Large Pilot Testing of Linde-BASF Advanced Post-Combustion Carbon Dioxide Capture Technology at a Coal-Fired Power Plant (FE0031581) Josh Morgan, National Energy Technology Laboratory Muhammad Ismail Shah, Technology Centre MongstadĮngineering Scale Testing of Transformational Non-Aqueous Solvent-Based Carbon Dioxide Capture Process at Technology Centre Mongstad (FE0031590)Ĭomputational Guidance for RTI TCM Test Campaign TCM: Last Step to Commercialization of Carbon Capture Technology Kirk Labarbara, National Energy Technology LaboratoryĬapture from Power Generation (Large Pilots) Nathan Kirkconnell and Nate Dilport, Tampa Electric Company Polk Power Station Natural Gas Combined Cycle Carbon Capture Front-End Engineering and Design Study (FE0032224) ![]() 1:35 p.m.įront-End Engineering Design for a CO 2 Capture System at Calpine’s Delta Energy Center (FE0032149)ĬO 2 Capture at Louisville Gas & Electric Cane Run Natural Gas Combined Cycle Power Plant (FE0032223)Īdam Berger, Electric Power Research Institute Moderator: Nicole Shamitko-Klingensmith 1:10 p.m. Retrofittable Advanced Combined Cycle Integration for Flexible Decarbonized Generation (FE0032131)ĭeer Park Energy Center - CCS Retrofit Feed (FE0032137) Jack Lewnard, Advanced Research Projects Agency-Energy Liz Moore, Office of Clean Energy Demonstrations Ronald Munson, National Energy Technology Laboratoryĭan Hancu, Office of Fossil Energy & Carbon Management Moderator - Ronald Munson, National Energy Technology Laboratory 10:30 a.m. Point Source Carbon Capture Overview (Panel Discussion)
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