CO2 capture from pre-combustion syngas in the temperature range of 250-400°C is highly desirable from an energy efficiency perspective. Thermodynamically, MgO is a promising material for CO2 capture, but the gas-solid reaction to produce MgCO3 is kinetically slow due to high lattice energy. We report here fast CO2 absorption over a solid MgO-molten nitrate/nitrite aggregate through phase transfer catalysis, in which the molten phase serves as both a catalyst and reaction medium. Reaction with CO2 at the gas-solid-liquid triple phase boundary results in formation of MgCO3 with significant reaction rate and a high conversion of MgO. This methodology is also applicable to other alkaline earth oxides, inspiring the design of absorbents which require activation of the bulk material.
Revised: March 11, 2015 |
Published: June 1, 2014
Citation
Zhang K., X.S. Li, W. Li, A. Rohatgi, Y. Duan, P. Singh, and L. Li, et al. 2014.Phase Transfer-Catalyzed Fast CO2 Absorption by MgO-Based Absorbents with High Cycling Capacity.Advanced Materials Interfaces 1, no. 3:Article No. 1400030.PNNL-SA-98809.doi:10.1002/admi.201400030