Flow and infrared radiation characteristics of high-altitude plume in thin atmosphere

Xingdong BAO; Xuehe ZHENG; Yuan TIAN; Zhenhua WANG; Sihui WANG; Zhihe XIAO

doi:10.3788/IRLA20240196

Infrared and Laser Engineering, Volume. 53, Issue 12, 20240196(2024)

Flow and infrared radiation characteristics of high-altitude plume in thin atmosphere

Xingdong BAO¹, Xuehe ZHENG², Yuan TIAN³, Zhenhua WANG¹, Sihui WANG¹, and Zhihe XIAO¹

Author Affiliations

¹National Key Laboratory of Scattering and Radiation, Beijing 100854, China

²The Defense Technology Research Academy of China Aerospace Science & Industry Corporation, Beijing 100854, China

³Beijing Institute of Electronic System Engineering, Beijing 100854, China

show less

Abstract Get PDF(in Chinese)

References(17)

[1] [1] KOGON M N. Rarefied Gas Dynamics[M]. New Yk: Plenum Press, 1969.

[2] J A HILL, J S DRAPER. Analytical approximation for the flow from a nozzle into a vacuum. Journal of Spacecraft and Rockets, 4, 1552-1554(1996).

[3] G A SIMONS. Effects of nozzle boundary layers on rocket exhaust plumes. AIAA Journal, 10, 1534-1535(1972).

[4] C P CAI, L M WANG. Numerical validations for a set of collisionless rocket plume solutions. Journal of Spacecraft and Rockets, 49, 59-68(2012).

[5] [5] BIRD G A. Molecular Gas Dynamics[M]. New Yk: Oxfd University Press, 1976.

[6] [6] MUNTZ E P, WEAVER D P, CAMPBELL D H. Rarefied gas dynamics: physical phenomena [C]The Sixteenth International Symposium on Rarefied Gas Dynamics, 1988.

[7] [7] GEGE J D. A combined CFDDSMC method f numerical simulation of nozzle plume flows[D]. New Yk: Cnell University, 2000.

[8] [8] CAMPBELL D H. High altitude plumefreestream interaction flowfields: comparison of DSMC predictions with experimental measurements [C]AIAA, 27th Thermophysics Conference, 1992.

[9] [9] SIMMONS F S. Rocket Exhaust Plume Phenomenology [M]. Califnia: The Aerospace Press, 2000.

[10] [10] BURT J M, BOYD I D. A Monte Carlo radiation model f simulating rarefied multiphase plume flows [C]38th AIAA Thermophysics Conference, 2005.

[11] [11] FAN J, SHEN Q. A new method used in DSMC technique The rom sampling frequency method [C]CFD They, Method Its Application, 1992.

[12] H R ZHENG, G B CAI, H Y WANG et al. Three-dimensional particle simulation of ion thruster plume flows with Ex-PWS. Plasma Science and Technology, 20, 122-130(2018).

[13] X L CHENG, M F MAO, X Q YAN. Numerical investigations of a small thruster plume at high altitude. Chinese Journal of Space Science, 22, 261-267(2002).

[14] Z H LI, Z H LI, A PENG. A numerical method for simulating rarefied two phase flow. Acta Aerodynamic Sinica, 33, 266-271(2015).

[15] [15] TAN H P, XIA X L. Numerical Computation of Infrared Radiation acteristics Transmission Computational Radiation[M]. Harbin: Harbin Institute of Technology Press, 2006. (in Chinese)

[16] S K DONG, Y SHUAI, H P TAN et al. Computation of radiation heat transfer in participating media using backward Monte Carlo method. Journal of Harbin Institute of Technology, 36, 1602-1604(2004).

[17] H ZHANG, M F MODEST. Evaluation of the planck-mean absorption coefficients from HITRAN and HITEMP databases. Journal of Quantitative Spectroscopy & Radiative Transfer, 73, 649-653(2002).

Tools

Get Citation

Copy Citation Text

Xingdong BAO, Xuehe ZHENG, Yuan TIAN, Zhenhua WANG, Sihui WANG, Zhihe XIAO. Flow and infrared radiation characteristics of high-altitude plume in thin atmosphere[J]. Infrared and Laser Engineering, 2024, 53(12): 20240196

Download Citation

EndNote(RIS)BibTex Plain Text

Set citation alerts for article

Save article for my favorites

Paper Information

Category: 红外技术及应用

Received: May. 8, 2024

Accepted: --

Published Online: Jan. 16, 2025

The Author Email:

DOI:10.3788/IRLA20240196

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology