Abstract
Improved powders for capturing CO2 at high temperatures are required for H2 production using sorption‐enhanced steam reforming. Here, we examine the relationship between particle structure and carbonation rate for two types of Na2ZrO3 powders. Hollow spray‐dried microgranules with a wall thickness of 100–300 nm corresponding to the dimensions of the primary acetate‐derived particles gave about 75 wt % theoretical CO2 conversion after a process‐relevant 5 min exposure to 15 vol % CO2. A conventional powder prepared by solid‐state reaction carbonated more slowly, achieving only 50 % conversion owing to a greater proportion of the reaction requiring bulk diffusion through the densely agglomerated particles. The hollow granular structure of the spray‐dried powder was retained postcarbonation but chemical segregation resulted in islands of an amorphous Na‐rich phase (Na2CO3) within a crystalline ZrO2 particle matrix. Despite this phase separation, the reverse reaction to re‐form Na2ZrO3 could be achieved by heating each powder to 900 °C in N2 (no dwell time). This resulted in a very stable multicycle performance in 40 cycle tests using thermogravimetric analysis for both powders. Kinetic analysis of thermogravimetric data showed the carbonation process fits an Avrami–Erofeyev 2 D nucleation and nuclei growth model, consistent with microstructural evidence of a surface‐driven transformation. Thus, we demonstrate that spray drying is a viable processing route to enhance the carbon capture performance of Na2ZrO3 powder.
Highlights
Powder sorbents for CO2 at high temperatures are of interest for a number of applications, including the production of H2 by steam reforming, whereby removal of CO2 shifts the chemical equilibrium in favour of greater H2 yield and purity
We use scanning and transmission electron microscopy with energy dispersive analysis of X-rays (EDX) to investigate the microstructural differences between Na2ZrO3 particles produced by spray drying a mixed acetate solution, and powders prepared by conventional solid state reaction
X-ray diffraction patterns confirmed that both spray dried (SD) and solid state (SS) powders contained crystalline Na2ZrO3, in the form of hexagonal and monoclinic polymorphs
Summary
Powder sorbents for CO2 at high temperatures are of interest for a number of applications, including the production of H2 by steam reforming, whereby removal of CO2 shifts the chemical equilibrium in favour of greater H2 yield and purity. We use scanning and transmission electron microscopy with energy dispersive analysis of X-rays (EDX) to investigate the microstructural differences between Na2ZrO3 particles produced by spray drying a mixed acetate solution, and powders prepared by conventional solid state reaction.
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