Electrokinetically Pumped Liquid Propellant Microthrusters for Orbital Station Keeping

Electrokinetically Pumped Liquid Propellant Microthrusters for Orbital Station Keeping

For most orbital maneuvers, small satellites in the sub-10 kg range require thrusters capable of spanning the micro-Newton to milli-Newton force range. At this scale, electrokinetic (EK) pumping offers precise metering of monergolic or hypergolic liquid propellants under purely electrical control at...

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Bibliographische Detailangaben
Hauptverfasser: Bartsch, M.S., McCrink, M.H., Crocker, R.W., Mosier, B.P., Peterson, K.A., Wally, K., Patel, K.D.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Acceleration
capillary nozzle
electro-osmosis
Electrokinetics
Gases
hydrazine
iridium catalyst
Laboratories
microfluidic
Monopropellant
Pressure control
Propellants
Propulsion
Pumps
Satellites
Silicon compounds
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Beschreibung
Zusammenfassung:For most orbital maneuvers, small satellites in the sub-10 kg range require thrusters capable of spanning the micro-Newton to milli-Newton force range. At this scale, electrokinetic (EK) pumping offers precise metering of monergolic or hypergolic liquid propellants under purely electrical control at pressures and flow rates well-suited to microthruster applications. We have demonstrated direct and indirect EK pumping for delivery of anhydrous hydrazine and hydrogen peroxide monopropellants, respectively, into capillary-based microthrusters with integrated in-line catalyst beds. Catalytic decomposition generates gases which accelerate through a plasma-formed converging-diverging nozzle, producing thrust. Specific impulses up to 190 s have been shown for hydrazine in non-optimized nozzles.
ISSN:2159-547X
DOI:10.1109/SENSOR.2007.4300663