射流式单重态氧发生器的气液两相耦合模型
[1] Zagidullin M V,Kurov A Y,Kupriyanov N L,et al.Highly efficient jet O2(1Δ) generator[J].Sov J Quantum Electron,1991,21(7):747-753.
[2] McDermott W E,StephensJ C,Vetrovec J,et al.Operating experience with a high throughput jet generator[C]//AIAA-97-2385,Conference on Gas Flow and Chemical Lasers.San Jose,CA,1997.
[3] 李富岭,杨柏龄,庄崎.射流式单重态氧发生器1维数值模型计算[J].量子电子学报,1998,15(4):371-375.(Li F L,Yang B L,Zhuang Q.One-dimension model calculation of JSOG.Chinese Journal of Quantum Electronics,1998,15(4):371-375)
[5] Copeland D A,Quan J,Blauer A,et al.Two-phase model of O2(1Δ) production with application to rotating disk generators[C]//Proc of SPIE.1993,1871:203-228.
[6] Lilenfeld H V.Oxygen iodine laser kinetics[R].AFWL TR-83-01,1983.
[7] Thayer Ⅲ W J,Cousins A K,Romea R D.Modeling of uniform droplet singlet oxygen generators[C]//Proc of SPIE.1994,2117:71-100.
[8] Zagidullin M V.The study and development of jet type singlet oxygen generator for COIL[C]//Proc of SPIE.1998,3574:569-576.
[9] McDermott W E.Performance characteristics of a high pressure jet generator[C]//Proc of SPIE.1998,3268:88-98.
[10] Ruiz-Ibanez G,Bidarian A,Davis R A,et al.Solubility and diffusivity of oxygen and chlorine in aqueous hydrogen peroxide solutions[J].Journal of Chemical and Engineering Data,1991,36(4):459-466.
[11] Masuda W,Satoh M,Yamada H.Effects of water vapor condensation on the performance of supersonic flow chemical oxygen-iodine laser[J].JSME International Journal,1996,39(2):273-279.
[13] Spalek O,Kodymova J,Zapidullin M V,et al.Optimization of jet singlet oxygen generator for chemical oxygen-iodine laser[C]//Proc of SPIE.1997,3092:565-568.
苏华, 李守先. 射流式单重态氧发生器的气液两相耦合模型[J]. 强激光与粒子束, 2007, 19(2): 219. 苏华, 李守先. Two-phase model of jet singlet oxygen generator[J]. High Power Laser and Particle Beams, 2007, 19(2): 219.