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氧碘化学激光(简称 COIL)系统中,水是影响激光功率输出的最重要的原因之一。气流中的水不仅对激发态碘原子有严重的猝灭作用,另外对碘分子解离、超音速流动特性也有很坏的负面作用。单重态氧发生器的BHP(Basic Hydrogen Peroxide )溶液是最主要的水蒸汽源。利用传质模型对射流式单重态氧发生器(简称JSOG)中产生的水蒸汽进行了计算,所得的数值结果与实验测量结果基本相符。根据模拟结果,对发生器的设计及实验条件进行了优化。 相似文献
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氧碘化学激光(简称 COIL)系统中,水是影响激光功率输出的最重要的原因之一。气流中的水不仅对激发态碘原子有严重的猝灭作用,另外对碘分子解离、超音速流动特性也有很坏的负面作用。单重态氧发生器的BHP(Basic Hydrogen Peroxide )溶液是最主要的水蒸汽源。利用传质模型对射流式单重态氧发生器(简称JSOG)中产生的水蒸汽进行了计算,所得的数值结果与实验测量结果基本相符。根据模拟结果,对发生器的设计及实验条件进行了优化。 相似文献
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实验考察了立式氧碘化学激光器的工作性能。在氯气流量为82 mmol/s,无主稀释气的条件下,输出功率约1.3 kW,化学效率达到16.9%。分别与以氦气和氮气为稀释气的氧碘化学激光器进行了主要参数的比较(He-COIL在氯气流量110 mmol/s时,输出功率为2.4 kW;N2-COIL在氯气流量115 mmol/s时,输出功率为2.6 kW;立式氧碘化学激光器在氯气流量115 mmol/s时,输出功率为1.32 kW),结果表明该COIL装置初步实验结果与传统的He-COIL和N2-COIL相比还存在很大差距。但通过对实验结果的深入分析得知,若进一步降低单重态氧发生器的pτres值,缩短超音速喷管中亚音速段的氧碘混合长度或采用超音速段氧碘混合方式,使该立式氧碘化学激光器在无主稀释气的条件下运行且达到与He-COIL和N2-COIL相当的功率水平是可以实现的。 相似文献
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单重态氧发生器作为氧碘化学激光的核心部件,为化学激光器提供化学能。通过对工业喷射器及旋风分离器的研究,结合产生单重态氧的化学反应环境,进行了大量模拟及设计改进工作,研制了一种新型喷射型单重态氧发生器,并进行了相关实验研究。喷射型单重态氧发生器利用喷嘴能够产生比传统发生器类型更多的气液表面,获得足够的反应效率,可以大幅度降低发生器液体使用量,从而减小发生器辅助系统,提高体积效率。为满足O2(1)停留时间短及分离效率高的要求,利用气液两相喷射的高初速度以旋风分离器完成气液分离。新型发生器氯气利用率可达97%~99%,其O2(1)产率为40%~50%。 相似文献
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N. P. Vagin D. G. Karapetyan A. F. Konoshenko P. G. Kryukov V. S. Pazyuk V. N. Tomashov N. N. Yuryshev 《Journal of Russian Laser Research》1994,15(3):213-242
Results of an experimental investigation of a chemical oxygen-iodine laser (COIL) are presented. We determine the factors
influencing the efficiency of a chemical singlet-oxygen generator (SOG) of the bubbler type operating on the chlorination
of an alkaline solution of oxygen peroxide. We describe SOG constructions. A cw COIL with output power up to 400 W is developed
on the basis of the investigated SOG. The feasibility of a modular construction of high-power COIL is demonstrated. A power-output
level of 1 kW was achieved with a two-section laser. The feasibility is analyzed of COIL operation in a pulsed regime by pulsed
bulk accrual of iodine atoms. We show that in this regime the laser can be operated without a low-temperature trap. An advantage
of such a regime is also the possibility of controlling, in a wide range, the lasing pulse duration. A strong influence of
molecular chlorine on the energy content of the active medium is observed when alkyliodides are used as iodine donors. The
possibilities of using a pulsed COIL for controlled thermonuclear fusion are discussed.
Translated from Trudy Fizicheskogo Instituta im. P. N. Lebedeva Akademiya Nauk SSSR, Vol. 194, pp. 114–147 (1989). 相似文献
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A new regime of chemical oxygen-iodine laser (COIL), high-pressure subsonic mode operation, was demonstrated using a jet-type
singlet oxygen generator (SOG). The laser output power of 342 W with chemical efficiency of 20.9% was obtained at the Cl2 flow rate of 18 mmol/s and the operating pressure of 6.4 Torr in the laser cavity. The specific energy was 3.1 J/l which
was four times higher than our supersonic device, and was comparable to the highest value for the supersonic regime. The experimental
results were in good agreement with the numerical simulation results.
Received: 26 February 1999 / Revised version: 13 July 1999 / Published online: 30 November 1999 相似文献