Add to ORKGMethane and carbon monoxide are gaseous contaminants commonly found in a crewed spacecrafts cabin environment that are of interest to trace contaminant control equipment design. Generation sources include crew metabolism and equipment offgassing. Sources and generation rates of methane and carbon monoxide aboard the International Space Station (ISS) are examined. Cabin atmosphere concentration dynamics covering 19 years of ISS crewed operations are presented and correlation with octafluoropropane (Freon 218) concentration levels is analyzed
Life support is a critical function of any crewed space vehicle or habitat. Human life support syste...
The Spacecraft Maximum Allowable Concentrations (SMACs) are exposure limits for airborne chemicals u...
International Space Station crew members face the unique challenge of maintaining air quality due to...
An understanding of the various sources of non-methane volatile organic compounds (NMVOCs) is one fa...
Trace chemical contaminants produced via equipment offgassing, human metabolic sources, and vehicle ...
The off-gassing of ammonia from hardware and metabolic sources presents a unique challenge to trace ...
A laboratory gas analysis system was developed specifically to make trace level measurements of carb...
Carbon monoxide and methane grab samples were obtained simultaneously with ozone, aerosol, nitric ox...
The International Space Station (ISS) Environmental Control and Life Support System (ECLSS) provides...
The Toxicology Laboratory at JSC and Exidyne Instrumentation Technologies (EIT) have developed a pro...
Maintaining the cabin atmospheres pressure, composition, and quality within specified parameters is ...
Two grab sample containers (GSCs) were collected by crew members onboard ISS in response to a vinega...
The fuel cell is a system which employs an electrochemical process to convert gases- J such as hydro...
A summary of the analytical results from 6 grab sample containers (GSCs) and 12 pairs of formaldehyd...
Spacecraft cabin air quality is of fundamental importance to crew health, with concerns encompassing...
Life support is a critical function of any crewed space vehicle or habitat. Human life support syste...
The Spacecraft Maximum Allowable Concentrations (SMACs) are exposure limits for airborne chemicals u...
International Space Station crew members face the unique challenge of maintaining air quality due to...
An understanding of the various sources of non-methane volatile organic compounds (NMVOCs) is one fa...
Trace chemical contaminants produced via equipment offgassing, human metabolic sources, and vehicle ...
The off-gassing of ammonia from hardware and metabolic sources presents a unique challenge to trace ...
A laboratory gas analysis system was developed specifically to make trace level measurements of carb...
Carbon monoxide and methane grab samples were obtained simultaneously with ozone, aerosol, nitric ox...
The International Space Station (ISS) Environmental Control and Life Support System (ECLSS) provides...
The Toxicology Laboratory at JSC and Exidyne Instrumentation Technologies (EIT) have developed a pro...
Maintaining the cabin atmospheres pressure, composition, and quality within specified parameters is ...
Two grab sample containers (GSCs) were collected by crew members onboard ISS in response to a vinega...
The fuel cell is a system which employs an electrochemical process to convert gases- J such as hydro...
A summary of the analytical results from 6 grab sample containers (GSCs) and 12 pairs of formaldehyd...
Spacecraft cabin air quality is of fundamental importance to crew health, with concerns encompassing...
Life support is a critical function of any crewed space vehicle or habitat. Human life support syste...
The Spacecraft Maximum Allowable Concentrations (SMACs) are exposure limits for airborne chemicals u...
International Space Station crew members face the unique challenge of maintaining air quality due to...