Title :
Improvement on Stability of Water Arcjet
Author :
Hou, Lingyun ; Shen, Yan ; Tang, Huangzai ; Zhao, Wenhua
Author_Institution :
Sch. of Aerosp., Tsinghua Univ., Beijing, China
Abstract :
An electric thruster using water propellant has enormous potential for human spaceflight missions. Seriously unstable mechanisms of a previous water arcjet are analyzed. The experiment simulating the vaporization of water shows the fluctuations of the plume and the arc voltage mainly result from the vaporization process in the supply pipe. A new supply pipe including capillary bundles and a buffer is developed, and the principle of stable vaporization in the capillary bundles is presented. By using this set of system, relatively stable vaporization of water in pipes is achieved. Performance research is carried out in a new designed thruster using water as a propellant. The experiment results prove that the stability of water arcjet is improved. Specific impulse and efficiency reach 530-580 s and 40%-50%, respectively, at a water flow rate of 20-30 mg/s and a power of 500-700 W.
Keywords :
aerospace propulsion; arcs (electric); fluctuations; propellants; stability; vaporisation; water; H2O; arc voltage; buffer; capillary bundles; electric thruster; human spaceflight missions; plume fluctuations; power 500 W to 700 W; stability; supply pipe; water arcjet; water propellant; water vaporization; Anodes; Copper; Oscillators; Propulsion; Stability analysis; Temperature measurement; Water heating; Buffer; capillary bundles; stability; water arcjet;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2010.2088132
