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The challenge of food provision in a human-tended Lunar/Martian base necessitates the development of stable, nutritious and palatable foods from limited plant sources. The ability to safely prepare and store a wide variety of foods having physiological and psychological acceptability, with a limited number of starting materials, plays a prime role in the success of long-term missions. Since wheat has been proposed as one of the major crops to be grown on space outposts, this project focuses on identifying novel ways to process food products from wheat under vacuum conditions. Vacuum has not been sufficiently exploited for food processing, and space vacuum can be capitalized for selected food processes. Two techniques currently under investigation are vacuum baking and extrusion. Vacuum oven baking minimizes the need for extensive proofing and/or chemical leavening and decreases preparation time.

The establishment of a human-tended lunar base requires an autonomous bioregenerative life support system. Bioregeneration within a Lunar Engineered Closed/Controlled EcoSystem (LECCES) can be realized by integrating humans, plants, animals, and waste treatment subsystems. This integration incorporates physical/chemical and biological waste treatment processes that minimize resupply requirements from Earth. A LECCES top-level system integration model is developed based on human metabolic massflow requirements. The proposed model is presented and its components are discussed.

Long-term human missions in space, establishment of a human-tended lunar base and of a Martian base requires an autonomous life support system. An Engineered Closed/Controlled Ecosystem (ECCES) can provide autonomy by integrating a human module with support plant and animal modules and waste treatment subsystems. Integration of physical/chemical and biological waste treatment subsystems can lead to a viable and operational bioregenerative system through minimizing resupply requirements from Earth. Life support requirements of the human module “drive” the design and operation an ECCES. A top-level diagram for an ECCES was developed based on the human module requirements. The proposed top-level diagram is presented and its components are discussed.