Characterizing Biological Closed-Loop Life Support Systems for Thermal Control and Revitalization of Spacecraft Cabin Environments

Metadata Updated: August 1, 2018

Environmental Control and Support Systems (ECLSS) are required for all manned spaceflight missions to provide the most fundamental physiological needs. One of these needs is the ability to remove carbon dioxide (CO2) and supply oxygen (O2) into the cabin atmosphere. NASA's current technology, designated to sequester CO2 and resupply O2, will not be able to support NASA's Strategic Plan for long duration spaceflight due to its inability to recover enough O2 and concerns from NASA about its open loop design. Instead, terrestrial designs have shown photosynthetic-based systems can provide a relatively reliable, closed loop solution for CO2 removal and O2 resupply.

I look to benefit life in space with my research in algal photobioreactor technologies to provide the fundamental needs for biological existence. The research could be used to refine photobioreactors on Earth to make them more efficient and to provide a better understanding of the capabilities of the system. Furthermore, if my research demonstrates the ability to use an algal photobioreactor as a closed system in the spacecraft environment, the technology will enable humans to travel further into space.

My research proposes to determine the feasibility of using an algal system to stabilize spacecraft cabin thermal environments while removing cabin CO2 and regenerating O2. A bench-top experiment, with algae Chlorella to characterize the feasibility, will employ resistive heating to imitate metabolic and hardware heating in the cabin, and a gas stream through the bag with a composition replicating the atmosphere from the cabin. My research plans to support this objective include:

-Creating a detailed model of the algal and cabin system using a literature study to assign rates to inputs and outputs of the system, to fully characterize the system

-Investigating the reliability of the algal system in space by using failure modes of terrestrial systems and applying spaceflight considerations

-Experimentally quantifying the consequences that time-varying inputs will have on the algal system's CO2 turnover rates.

The inputs to be varied are CO2, temperature, lighting, and N2 for growth-medium pH modification. Microgravity effects will also be assessed by use of a clinostat. With the completion of this research, I expect to know the viability of using an algal photobioreactor not only for cabin CO2 reduction and O2 regeneration, but also for controlling the spacecraft cabin thermal environment. Being able to control both atmospheric revitalization and thermal stability with one system will increase system functionality and reliability, making long duration spaceflight feasible.

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Public: This dataset is intended for public access and use. License: U.S. Government Work

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Metadata Created Date August 1, 2018
Metadata Updated Date August 1, 2018

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Harvested from NASA Data.json

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Resource Type Dataset
Metadata Created Date August 1, 2018
Metadata Updated Date August 1, 2018
Publisher Space Technology Mission Directorate
Unique Identifier TECHPORT_91468
Maintainer
TECHPORT SUPPORT
Maintainer Email
Public Access Level public
Bureau Code 026:00
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Harvest Object Id 021abe6f-3762-437c-9648-d3080f2b3352
Harvest Source Id 39e4ad2a-47ca-4507-8258-852babd0fd99
Harvest Source Title NASA Data.json
Data First Published 2019-09-01T07:00:00.000Z
Homepage URL https://techport.nasa.gov/view/91468
Language en-US
License http://www.usa.gov/publicdomain/label/1.0/
Data Last Modified 2018-01-10T00:00:00.000Z
Program Code 026:027
Publisher Hierarchy National Aeronautics and Space Administration > Space Technology Mission Directorate
Source Datajson Identifier True
Source Hash b0c55bf03c49562cc81a9f5043f171e3a407aa81
Source Schema Version 1.1

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