Title :
CFD simulation of vane-type tank on-orbit refilling
Author :
Hua Wang ; Pingjun Si ; Cunyan Cui ; Wenxian Yan ; Wei Li ; Jian Sun
Author_Institution :
Acad. of Equip., Beijing, China
Abstract :
In the microgravity environment, the position of the ullage bubble is uncertain. It´s hard to vent and control the center of mass for the receiver tank on mission of onor-bit refilling. The test tank of FARE II is taken as reference. using theory of the surface tension tank and the method of numerical simulation, the on-orbit refilling performance of the vane surface tension tank was studied. Calculation model is established. The VOF two-phase flow model is selected. Supposing hydrazine as working liquid, the process of vane tank on-orbit refilling is simulated. Simulation results show that the liquid is oriented effectively by the propellant management device. Vent and mass-center control in the process of refilling are realized. For various propellants, the critical flow rate is different. Wicking channel has an effect on the ullage position.
Keywords :
aerodynamics; blades; bubbles; computational fluid dynamics; propellants; two-phase flow; CFD simulation; FARE II; VOF two-phase flow model; hydrazine; mass-center control; microgravity environment; on-orbit refilling; propellant management device; receiver tank; ullage bubble; vane surface tension tank; vane-type tank; wicking channel; Blades; Filling; Liquids; Propulsion; Space vehicles; Surface tension; Vents; On-Orbit Refill; Propellant Management Device; Surface Tension Tank; Vane;
Conference_Titel :
Mechatronic Sciences, Electric Engineering and Computer (MEC), Proceedings 2013 International Conference on
Conference_Location :
Shengyang
Print_ISBN :
978-1-4799-2564-3
DOI :
10.1109/MEC.2013.6885515
