摘要
研究气固耦合喷沙医疗康复装置加热管道中,不同热源(恒温)结构、工作压力和颗粒直径对流域内沙粒传热效率的影响。基于流体动力学和传热学原理,创建三维物理模型,利用Fluent软件,对装置内部流域采用DO辐射模型、Boussinesq假设和标准k-ε方程,将加热系统中的气固耦合问题通过有限体积法进行计算。结果表明:内部热源(恒温)结构为实心圆柱时,颗粒的受热相对均匀,进出沙量占比高;通过设置5种工作压力,沙粒在工作压力为0.2 MPa时受热温度最好;颗粒直径为2 mm的沙粒,在内部热源(恒温)为实心圆柱的结构中受热最好,符合所要求的温度范围。得到最佳加热结构、进口工作压力、合适的颗粒直径和出沙量,确定出加热系统的最优方案。
Heating of sandblast,in the self-developed medical sandblasting rehabilitation instrument,was empirically approximated,mathematically formulated with standard k-εturbulence equation and DO radiation model,theoretically analyzed and numerically simulated with Fluent software.The influence of the heater geometry,inlet-gas pressure and particle-size on the thermal gas-solid flow field and heat transfer efficiency was investigated for design optimization.The simulated results show that the heater geometry,gain-size and pressure all have a major impact.To be specific,the solid cylinder heater outperforms the hollow-cylinder,triple-plate and helical heaters because the comfortably warmed sandblast has a greater uniformity and a much less residual sand.When it comes to medical requirements of sandblaster,the optimized inlet-pressure and grain-size should be 0.2 MPa and 2 mm,respectively.
作者
于洋
居来提·买提肉孜
李乾坤
Yu Yang;Jurat Matrozi;Li Qiankun(School of Mechanical Engineering,Xinjiang University,Urumqi 830047,China)
出处
《真空科学与技术学报》
EI
CAS
CSCD
北大核心
2020年第5期499-504,共6页
Chinese Journal of Vacuum Science and Technology
基金
机械制造系统工程国家重点实验室基金项目(sklms2017012)。
