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17 conditions is critical to advance this concept. Moreover, development of the membrane-electrode assembly, engineering of the reactant/product delivery and transport, and optimization of the prototype geometries are also needed to demonstrate an efficient, stable prototype. In-depth architecture modeling using multi-physics computational simulations will also provide vital design guidelines and reveal the most effective levers in the system for the Mars ISRU application. Moreover, it would be very valuable to provide quantitative analysis based on experimental results that compare Device-A with MOXIE under operation to understand the pros and cons of the two systems. In contrast, the development of Device-B should focus on catalyst and reaction engineering and understanding the underlying mechanism for the coupled multi-electron, multi-proton reaction. Development of more efficient and selective electrocatalysts for CO2 reduction to methane is a prerequisite for an efficient system. It would also be very valuable to perform quantitative analysis that compares Device-B with a step-wise approach that couples a water electrolysis reactor and a Sabatier reactor.PDF Image | ISRU Challenge Production of O2 and Fuel from CO2
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