摘要
为解决气液分离问题,提出了粒径可控离心分离的设想,即通过某种雾化技术产生粒径可控的液滴,然后根据液滴的粒径确定气液分离所需要的离心力,在高速旋转的叶片所产生的离心力作用下液滴一边与气流发生反应一边完成气液分离。为验证这一思想,搭建了一台旋流喷雾式单重态氧发生器(TFA-SOG),并通过计算流体力学模拟和实验对这台TFA-SOG进行了研究。研究结果表明,模拟的气液分离效率与实验的相一致,粒径可控离心分离的设想是可行的。
Gas-liquid separation is the key to the success of an aerosol-type singlet oxygen generator.To solve the problem of gas-liquid separation,the idea of droplet size-controlled centrifugal separation was proposed that sizecontrolled droplets are produced by using an atomization technique and then during the reaction of the droplets with gas flow the gas-liquid separation is simultaneously done by a centrifugal force which is determined by the sizes of the droplets and generated by a set of high-speed rotating blades.To verify this idea,a twisted flow aerosol singlet oxygen generator(TFA-SOG)based on this idea was built and investigated through simulation and experiment.The investigation shows that the simulated gas-liquid separation efficiencies are consistent with the experimental ones and the idea is feasible;the emphasis on further development of TFA-SOGs should be put on the droplet size-controlled atomization technique.
作者
许晓波
胡大鹏
邓列征
于洋
陈文武
金玉奇
Xu Xiaobo;Hu Dapeng;Deng Liezheng;Yu Yang;Chen Wenwu;Jin Yuqi(School of Chemical Engineering,Dalian University of Technology,Dalian 116024,China;Key Laboratory of Chemical Lasers,Dalian Institute of Chemical Physics,Chinese Academy of Sciences,Dalian 116023,China)
出处
《强激光与粒子束》
CAS
CSCD
北大核心
2022年第8期29-35,共7页
High Power Laser and Particle Beams
基金
国家自然科学基金项目(21473194,21573231)
中国科学院创新基金项目(CXJJ-16S024,CXJJ-17S055)
中国科学院化学激光重点实验室创新基金课题(2019,2021)。
关键词
化学激光
氧碘化学激光
单重态氧发生器
气液分离
计算流体力学
chemical laser
chemical oxygen iodine laser
singlet oxygen generator
gas-liquid separation
computational fluid dynamics
