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Tang Litie, Yu Zhichuang, Zhao Lezhi, Yin Fei, Guo Shibo, Tan bin. Total pressure losing of nozzles flow in DF/HF chemical laser by numerical simulation[J]. Infrared and Laser Engineering, 2013, 42(5): 1194-1197.
Citation: Tang Litie, Yu Zhichuang, Zhao Lezhi, Yin Fei, Guo Shibo, Tan bin. Total pressure losing of nozzles flow in DF/HF chemical laser by numerical simulation[J]. Infrared and Laser Engineering, 2013, 42(5): 1194-1197.
shu

Total pressure losing of nozzles flow in DF/HF chemical laser by numerical simulation

  • 1.

    Northwest Institue of Nuclear Technology,Xi'an 710024,China

  • Received Date: 2012-09-01
  • Rev Recd Date: 2012-10-11
  • Publish Date: 2013-05-25
  • The DF/HF chemical laser needs the pressure recovery system with huge volume to work successfully. In order to optimize the design of the laser and the pressure recovery system, the flow field and total pressure losing of two types nozzles(standard nozzle and thin neck nozzle) in DF/HF chemical lasers was studied by numerical simulation. The difference of their total pressure losing and interior flow field were compared. Then the influence of the difference on the entire laser system performance was discussed. The computer result shows that the total pressure losing of the thin neck nozzle was as same as the standard nozzle. So, using the thin neck nozzle was benefit to diminishing the volume of gain generator of the DF/HF chemical laser. And it did not take more berden to the pressure recovery system. So, the pressure recovery system at the end of the laser will not have to be enlarged.
  • [1] Gross R W F, Bott J F. Handbook of Chemical Lasers[M]. Beijing: Science Press, 1987: 267-276. (in Chinese)
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    [4] Li Qiang, Zeng Xuewen, Zhao Yijun, et al. Power of small-scale CW discharge DF/HF chemical laser[J]. Infrared and Laser Engineering, 2003, 32(4): 343-345. (in Chinese)李强, 曾学文, 赵伊君, 等. 小功率连续波放电DF/HF化学激光器的功率[J]. 红外与激光工程, 2003, 32(4): 343-345.
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    [6] Ning Yongqiang, Zhang Xing, Qin Li, et al. High-power high beam quality vertical-cavity surface-emitting lasers[J]. Infrared and Laser Engineering, 2012, 41(12): 3219-3225. (in Chinese)宁永强, 张星, 秦莉, 等. 高光束质量大功率垂直腔面发射激光[J]. 红外与激光工程, 2012, 41(12): 3219-3225.
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    [9] Ge Lun, Hua Weihong, Wang Hongyan, et al. Energy pooling process in rubidium vapor laser[J]. Infrared and Laser Engineering, 2013, 42(2): 334-338. (in Chinese)葛伦, 华卫红, 王红岩, 等. 铷蒸气激光器中的碰撞能量转移效应[J]. 红外与激光工程, 2013, 42(2): 334-338.
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    [17] Hua Weihong, Jiang Zongfu, Zhao Yijun. Numerical research on high cavity pressure of CW DF chemical laser[J]. High Power Laser and Particle Beams, 1997, 9(2): 221-225. (in Chinese)华卫红, 姜宗福, 赵伊君. 连续波DF激光器高腔压运转的数值研究[J]. 强激光与粒子束, 1997, 9(2): 221-225.
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Total pressure losing of nozzles flow in DF/HF chemical laser by numerical simulation

  • 1. Northwest Institue of Nuclear Technology,Xi'an 710024,China
  • Received Date: 2012-09-01
  • Rev Recd Date: 2012-10-11
  • Publish Date: 2013-05-25

Abstract: The DF/HF chemical laser needs the pressure recovery system with huge volume to work successfully. In order to optimize the design of the laser and the pressure recovery system, the flow field and total pressure losing of two types nozzles(standard nozzle and thin neck nozzle) in DF/HF chemical lasers was studied by numerical simulation. The difference of their total pressure losing and interior flow field were compared. Then the influence of the difference on the entire laser system performance was discussed. The computer result shows that the total pressure losing of the thin neck nozzle was as same as the standard nozzle. So, using the thin neck nozzle was benefit to diminishing the volume of gain generator of the DF/HF chemical laser. And it did not take more berden to the pressure recovery system. So, the pressure recovery system at the end of the laser will not have to be enlarged.

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