Autor: |
Woronowicz, Michael, Abel, Joshua, Autrey, David, Blackmon, Rebecca, Bond, Tim, Brown, Martin, Buffington, Jesse, Cheng, Edward, DeLatte, Danielle, Garcia, Kelvin, Glenn, Jodie, Hawk, Doug, Ma, Jonathan, Mohammed, Jelila, de Garcia, Kristina Montt, Perry, Radford, Rossetti, Dino, Tull, Kimathi, Warren, Eric |
Předmět: |
|
Zdroj: |
AIP Conference Proceedings; 2014, Vol. 1628, p547-554, 8p, 2 Diagrams, 5 Graphs |
Abstrakt: |
The International Space Station program is developing a robotically-operated leak locator tool to be used externally. The tool would consist of a Residual Gas Analyzer for partial pressure measurements and a full range pressure gauge for total pressure measurements. The primary application is to demonstrate the ability to detect NH3 coolant leaks in the ISS thermal control system. An analytical model of leak plume physics is presented that can account for effusive flow as well as plumes produced by sonic orifices and thruster operations. This model is used along with knowledge of typical RGA and full range gauge performance to analyze the expected instrument sensitivity to ISS leaks of various sizes and relative locations ("directionality"). The paper also presents experimental results of leak simulation testing in a large thermal vacuum chamber at NASA Goddard Space Flight Center. This test characterized instrument sensitivity as a function of leak rates ranging from 1 lbm//yr. to about 1 lbm/day. This data may represent the first measurements collected by an RGA or ion gauge system monitoring off-axis point sources as a function of location and orientation. Test results are compared to the analytical model and used to propose strategies for on-orbit leak location and environment characterization using the proposed instrument while taking into account local ISS conditions and the effects of ram/wake flows and structural shadowing within low Earth orbit. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
|