螺旋管蒸发器启动过程流动换热特性OA
Flow Heat Transfer Characteristics During the Start-up Process of Spiral Tube Evaporators
Li/SF6 金属燃料闭式循环动力系统具有高隐蔽性、高机动性优势.其启动过程的核心要求是螺旋管蒸发器出口水蒸气状态参数快速达到设定值.针对螺旋管蒸发器启动特性问题,耦合气瓶挤代装置、螺旋管蒸发器和涡轮机喷管,采用欧拉多相流模型与 Non-Equilibrium 沸腾模型的数值方法,建立启动过程定流量以及变流量螺旋管蒸发器流动换热数值仿真模型,并验证数值模型的有效性.结果表明:液相水进入螺旋管蒸发器后,与管壁进行流动换热,管内水蒸气含量逐渐增加,沿流动方向的工质流速与温度升高,在定流量工况下,0.2~0.3 s内,过热蒸汽能够到达螺旋管蒸发器出口,出口状态参数处于设定值范围内.根据定流量工况计算结果反向设计气瓶挤代装置,在 3 MPa 的挤代压力下,螺旋管蒸发器出口水蒸气的状态和管内流动换热特性与定流量工况无明显差别,满足螺旋管蒸发器启动过程的需求.该研究为动力系统启动过程的初始参数设定与挤代装置优化设计提供了理论支撑.
The Li/SF6 metal fuel closed-cycle power system boasts advantages of high concealment and maneuverability.A core start-up requirement of the system is that vapor state parameters at the outlet of the spiral evaporator quickly attain set values.To address the start-up issue of evaporators,a numerical simulation model for flow and heat transfer under constant and variable flow conditions is established.This model couples the cylinder extrusion device,spiral evaporator,and turbine nozzle,adopting a numerical method to combine the Eulerian multi-phase flow model and the Non-Equilibrium boiling model.The effectiveness of the proposed model is verified.The results show that after entering the evaporator,the water conducts flow heat transfer with the tube wall,leading to a gradual increase in the vapor content inside the tube,as well as the flow velocity and temperature of the working fluid along the flow direction.Under the constant flow condition,superheated steam can reach the outlet of the evaporator within 0.2~0.3 s,and the outlet state parameters fall within the set range.Based on the calculation results of the constant flow condition,the cylinder extrusion device is designed.Under an extrusion pressure of 3 MPa,the state of the vapor at the outlet of the evaporator and the flow heat transfer characteristics inside the tube show no significant difference from those under the constant flow condition,meeting the requirements of the evaporator's start-up process.This study provides theoretical support for the initial parameter setting of the power system's start-up process and the optimal design of the extrusion device.
张宇航;严天朔;刘帅忱;秦侃
西北工业大学航海学院,陕西省 西安市 710072西北工业大学航海学院,陕西省 西安市 710072西北工业大学航海学院,陕西省 西安市 710072西北工业大学航海学院,陕西省 西安市 710072
军事科技
non-equilibrium沸腾模型启动特性挤代系统螺旋管蒸发器计算流体力学
non-equilibrium boiling modelstart-up characteristicsextrusion systemspiral tube evaporatorcomputational fluid dynamics
《中国电机工程学报》 2026 (3)
1110-1122,中插19,14
国家自然科学基金项目(52476035).Project Supported by National Natural Science Foundation of China(52476035).
评论