Add to ORKGReliability of closed life support systems depend on their ability to continue supplying the crew's needs during perturbations and equipment failures. The dynamic considerations interact with the basic static design through the sizing of storages, the specification of excess capacities in processors, and the choice of system initial state. A very simple system flow model was used to examine the possibilities for system failures even when there is sufficient storage to buffer the immediate effects of the perturbation. Two control schemes are shown which have different dynamic consequences in response to component failures
Closed life support system research, and other conference papers on water purification, waste dispos...
A model of the relative mass requirements of food production components in a controlled ecological l...
This report describes a flexible, reliable, deep space life support system design approach that uses...
Nonlinear system controller design based on the domain of attraction is presented. This is particula...
Some issues of Closed Ecological Life Support System (CELSS) analysis and design are effectively add...
Research topics that arise from the conceptualization of control for closed life support systems whi...
In order to pursue space colonization, long duration spaceflight, and human missions to Mars, we wil...
This paper considers some of the common assumptions and engineering rules of thumb used in life supp...
It is sometimes optimistically hoped that a space life support system can be kept working throughout...
Design decisions to aid the development of future space based biological life support systems (BLSS)...
Despite the central importance of crew safety in designing and operating a life support system, the ...
The employment of bio-regenerative processes complemented with physical-chemical backup systems and...
A novel methodology that enables a sequential modular steady state simulator, ASPEN PLUS, to perform...
The identification, analysis, and optimization of life support systems and subsystems have been inve...
A hardware system's failure rate often increases over time due to wear and aging, but not always. So...
Closed life support system research, and other conference papers on water purification, waste dispos...
A model of the relative mass requirements of food production components in a controlled ecological l...
This report describes a flexible, reliable, deep space life support system design approach that uses...
Nonlinear system controller design based on the domain of attraction is presented. This is particula...
Some issues of Closed Ecological Life Support System (CELSS) analysis and design are effectively add...
Research topics that arise from the conceptualization of control for closed life support systems whi...
In order to pursue space colonization, long duration spaceflight, and human missions to Mars, we wil...
This paper considers some of the common assumptions and engineering rules of thumb used in life supp...
It is sometimes optimistically hoped that a space life support system can be kept working throughout...
Design decisions to aid the development of future space based biological life support systems (BLSS)...
Despite the central importance of crew safety in designing and operating a life support system, the ...
The employment of bio-regenerative processes complemented with physical-chemical backup systems and...
A novel methodology that enables a sequential modular steady state simulator, ASPEN PLUS, to perform...
The identification, analysis, and optimization of life support systems and subsystems have been inve...
A hardware system's failure rate often increases over time due to wear and aging, but not always. So...
Closed life support system research, and other conference papers on water purification, waste dispos...
A model of the relative mass requirements of food production components in a controlled ecological l...
This report describes a flexible, reliable, deep space life support system design approach that uses...