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14 Chapter 2. Basis of Comparison (ii) Direct photo-driven electrolysis reactor, without energy storage or alternative power source, (iii) Orbiting photovoltaic power source supplying power to landed electrolysis reactor via power beaming. Initially, we will study fundamental electrolytic processes that we consider to be the most promising for implementation on Mars at lower temperatures than those required by SOXE or other processes (e.g., Sabatier). We highlight the pressing need for characterization of these reactions under Mars-relevant conditions (temperature and pressure) so that a direct comparison with SOXE implementations can be performed at the system level to guide future mission architecture planning. In addition, we note that direct electrolysis reactors can receive power input from any electrical source, and are thus compatible with radioisotope thermoelectric generator (RTG) or fission power system architectures without requiring substantial modification.PDF Image | ISRU Challenge Production of O2 and Fuel from CO2
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