941453: A TOP-LEVEL INTEGRATION FOR A PLANETARY ENGINEERED CLOSED/CONTROLLED ECOSYSTEM - Technical Paper

Event: International Conference On Environmental Systems

Authors

Center for Engineering Infrastructure and Sciences in Space (CEISS), Colorado State University Fort Collins, CO

Michael J. Condran

Center for Engineering Infrastructure and Sciences in Space (CEISS), Colorado State University Fort Collins, CO

David W. Hendricks

Center for Engineering Infrastructure and Sciences in Space (CEISS), Colorado State University Fort Collins, CO

Abstract

Content: 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.

Meta Tags

Topics: Life support systems
Biological sciences
Chemicals

Affiliated or Co-Author: Center for Engineering Infrastructure and Sciences in Space (CEISS), Colorado State University Fort Collins, CO

Details

DOI: https://doi.org/10.4271/941453

Pages: 8

Citation: Sadeh, W., Condran, M., and Hendricks, D., "A TOP-LEVEL INTEGRATION FOR A PLANETARY ENGINEERED CLOSED/CONTROLLED ECOSYSTEM," SAE Technical Paper 941453, 1994, https://doi.org/10.4271/941453.

Additional Details

Publisher: SAE International

Published: Jun 1, 1994

Product Code: 941453

Content Type: Technical Paper

Language: English