This NASA SBIR Phase I project is a feasibility study for treating wastes generated during space missions and producing emissions that are within the Spacecraft Maximum Allowable Concentrations (SMAC), using wet carbonization and advanced combustion technologies. EnerTech's innovative wet carbonization technology will transform heterogeneous metabolic wastes and trash components, through a moderate temperature and pressure carbonization, into a uniform and pumpable slurry, which the Energy & Environmental Research Corporations's (EER) advanced combustion technology of Hybrid Fluidized Bed Incinerator (HFBI) will combust with emissions that are within SMAC standards. The CO2 and H2O generated during conversion of the wastes can be used to support plant growth systems and provide for a closed-loop, regenerative life support system. The objective of this Phase I proposal is to determine the characteristics of the product slurry from wet carbonization experiments and an acceptable range of combustion conditions to are within SMAC standards. In Phase I, wet carbonization and advanced combustion experiments will be conducted with existing bench-scale facilities using actual metabolic wastes and trash components. It is anticipated that Phase I and Phase II research will produce a prototype unit that can be integrated into a functional life support system in Phase III.