Nelson, T., Coleman, L., Kataria, A., Lail, M., Soukri, M., Quang, DV., & Abu Zahra, MRM. (2014). Advanced solid sorbent-based CO2 capture process. Energy Procedia, 63, 2216-2229. https://doi.org/10.1016/j.egypro.2014.11.241
RTI International, Masdar, and Pennsylvania State University (PSU) are leading an effort to develop an advanced solid sorbent- based CO2 capture process for application to exhaust gas from various industrial sources – including coal-fired power plant flue gas. The technical and economic hurdles to solid sorbent CO2 capture are being addressed through transitioning a promising sorbent chemistry (based on supported amines) to a low-cost sorbent suitable for use in a fluidized-bed process. In parallel, a scalable circulating fluidized-bed process arrangement is being developed. Efforts have focused on improving sorbent stability and performance, converting sorbents to a fluidizable form, producing large quantities (100+ kg) of sorbent through scalable methods, and evaluating the viability of new process designs through bench-scale testing using simulated coal-fired flue gas.