NUMERICAL SIMULATION OF ENGINE VACUUM PLUME BASED ON N–S EQUATION, 264-270.

Hui Wang

References

1. [1] J. Wu, G. Cai, B. He, and Z. Jay, Experimental and numerical investigations of vacuum plume interaction for dual hydrogen/oxygen thrusters, Vacuum, 128, 2016, 166–177.
2. [2] M. Jiang, W. Tao, Y.B. Chen, and S.L. Wang, Characteristics of bead formation and plasma plume in fiber laser welding under vacuum, Chinese Journal of Lasers, 43(4), 2016, 0403010.
3. [3] X. Jin, T. Huang, M.J. Yang, et al., A 2D3V electromagnetic PIC/MCC simulation of plume properties in ion thruster, IEEE Transactions on Plasma Science, 46(8), 2018, 2814–2818.
4. [4] N.Y. Bykov, Formation of small clusters in the free expanding water vapor plume, Fluid Dynamics, 53(3), 2018, 428–437.
5. [5] G.L. Romine and J.A. Noble, Closed-form model for three-dimensional vacuum plumes from a scarfed nozzle, AIAA Journal, 22(5), 2015, 719–721.
6. [6] W. Jing, M. Bitter, G.B. Cai, et al., Investigation on aerodynamic force effect of vacuum plumes using pressure-sensitive paint technology and CFD-DSMC solution, Science China Technological Sciences, 60(7), 2017, 1058–1067.
7. [7] B.E. Pearce, Analytical model for a two-phase vacuum plume, AIAA Journal, 14(14), 2015, 261–263.
8. [8] Y. Silver, I. Nachshon, I. Beilis, et al., Velocity and ion charge in a copper plasma plume ejected from 5 microsecond vacuum arcs, Journal of Applied Physics, 121(5), 2017, 053301.
9. [9] L. Zhang, J. Shi, and Y. Han, Modified DSMC method based the specific order of collision molecules, Journal of Ballistics, 30(3), 2018, 25–29.
10. [10] X. Jin, T. Huang, M.J. Yang, et al., A 2D3V electromagnetic PIC/MCC simulation of plume properties in ion thruster, IEEE Transactions on Plasma Science, 46(8), 2018, 2814–2818.
11. [11] J.E. Fontenot, Thermal radiation from solid rocket plumes at high altitude, AIAA Journal, 3(5), 2015, 970–972.
12. [12] F.E. Lamzouri, E. Boufounas, and A. El Amrani, Backstepping integral sliding mode control for energy capture optimization of wind turbine system, Mechatronic Systems and Control, 201, 2019, 3042.
13. [13] A.B. Bailey, Flow-angle measurements in a rarefied nozzle plume, AIAA Journal, 25(10), 2015, 1301–1304.
14. [14] V. Subramaniam and L. Raja, A plasma-vacuum interface tracking algorithm for magnetohydrodynamic simulations of coaxial plasma accelerators, Journal of Computational Physics, 366, 2018, 207–225.
15. [15] F. Kinoshita and H. Takada, Numerical analysis of stochastic differential equations describing body sway while viewing 3D video clips, Mechatronic Systems and Control, 201, 2019, 2995.

Important Links:

• Abstract
• DOI: 10.2316/J.2020.201-0108
• From Journal (201) Mechatronic Systems and Control - 2020

Go Back