A preliminary study of the environmental control and life support subsystems (EC/LSS) necessary for an earth orbital spacecraft to conduct biological experiments is presented. The primary spacecraft models available for conducting these biological experiments are the space shuttle and modular space station. The experiments would be housed in a separate module that would be contained in either the shuttle payload bay or attached to the modular space station. This module would be manned only for experiment-related tasks, and would contain a separate EC/LSS for the crew and animals. Metabolic data were tabulated on various animals that are considered useful for a typical experiment program. The minimum payload for the 30-day space shuttle modu...
This volume is the first in a planned series of reports intended to provide a comprehensive record o...
The Closed Ecological Life Support System (CELSS) Breadboard Project, NASA's effort to develop the t...
Engineers at Johnson Space Center (JSC) are developing an Environmental Control and Life Support Sys...
Environmental control and life support subsystem for long term, earth orbital space statio
The preliminary data of the environmental control and life support subsystem for a space constructio...
The use of the space shuttle in carrying out biological and medical research programs, with emphasis...
Life support systems in space travel, in closed ecological systems were studied. Topics discussed in...
The findings of a study to define the required payloads for conducting life science experiments in s...
NASA has plans for long-duration manned space missions, including a return to the moon, manned fligh...
In order to carry long-term manned space exploration, closed-loop life support systems are develop...
The Space Station, projected for construction in the early 1990s, will be an orbiting, low-gravity, ...
The development of closed ecological systems for space stations is discussed. Growth chambers, contr...
During the 1980's, some 200 Spacelab missions will be flown on space shuttle in earth-orbit. Within ...
A preliminary design for performing on orbit, autonomous research on microorganisms and cultured cel...
Since the beginning of human spaceflight, mission durations have steadily increased. Current mission...
This volume is the first in a planned series of reports intended to provide a comprehensive record o...
The Closed Ecological Life Support System (CELSS) Breadboard Project, NASA's effort to develop the t...
Engineers at Johnson Space Center (JSC) are developing an Environmental Control and Life Support Sys...
Environmental control and life support subsystem for long term, earth orbital space statio
The preliminary data of the environmental control and life support subsystem for a space constructio...
The use of the space shuttle in carrying out biological and medical research programs, with emphasis...
Life support systems in space travel, in closed ecological systems were studied. Topics discussed in...
The findings of a study to define the required payloads for conducting life science experiments in s...
NASA has plans for long-duration manned space missions, including a return to the moon, manned fligh...
In order to carry long-term manned space exploration, closed-loop life support systems are develop...
The Space Station, projected for construction in the early 1990s, will be an orbiting, low-gravity, ...
The development of closed ecological systems for space stations is discussed. Growth chambers, contr...
During the 1980's, some 200 Spacelab missions will be flown on space shuttle in earth-orbit. Within ...
A preliminary design for performing on orbit, autonomous research on microorganisms and cultured cel...
Since the beginning of human spaceflight, mission durations have steadily increased. Current mission...
This volume is the first in a planned series of reports intended to provide a comprehensive record o...
The Closed Ecological Life Support System (CELSS) Breadboard Project, NASA's effort to develop the t...
Engineers at Johnson Space Center (JSC) are developing an Environmental Control and Life Support Sys...