Integration of high-fidelity model of forward variable area bypass injector into zero-dimensional variable cycle engine model

Forward Variable Area Bypass Injector (FVABI) is one of key components which contributes to modulate the cycle parameters of Variable Cycle Engine (VCE) under various operation conditions. The modeling method of zero-dimensional FVABI was reviewed and its deficiency was analyzed based on FVABI flow characteristic. In order to improve the accuracy of VCE performance simulation, the high-fidelity modeling method of FVABI was developed based on its working characteristics. Then it was coupled with the zero-dimensional VCE model and the multi-level VCE model was built. The results indicate that the geometric and aerodynamic parameters can affect the interaction between the two airflows and the zero-dimensional FVABI model is too simple to predict the component performance accurately, especially when the FVABI inner bypass is chocked. Based on the performance curves for single bypass mode and the regression model of multi-scale support vector regression for double bypass mode, the high-fidelity model can predict FVABI performance accurately and rapidly. The integration of high-fidelity FVABI model into zero-dimensional VCE model can be done by adjusting iterative variables and balance equations. The multi-level model has good convergence and it can predict VCE performance when the FVABI inner bypass is chocked.     

供油瞬态喷油杆内燃油结焦机理及规律数值研究

为获得喷油杆通断循环供油工作模式下,供油瞬间燃油结焦速率陡增机理,本文建立起沿喷杆轴向的一维非稳态热-流-固耦合换热与燃油结焦计算模型.获得不同时刻壁温、油温与结焦速率等参数轴向分布.通过与连续供油模式下的结果对比,来分析供油瞬间灼热喷杆内壁对燃油热冲击的影响,以获得结焦速率陡增机理.结果表明:通断供油模式下,供油瞬间...     

变推力发动机仿真计算分析

分析了变推力发动机采用的双调模式,用流量调节器控制推进剂流量。流量定位针栓式喷注器控制喷注压降,保证喷注速度基本不变。根据发动机系统特点建立了主要组件的数学模型,并根据模型进行了仿真计算,最后对发动机前管路流阻影响进行了分析。     

Experimental study of hydrogen-rich/oxygen-rich gas-gas injectors

Five types of coaxial injectors were investigated experimentally using hot hydrogen-rich gas and oxygen-rich gas, which were respectively provided by a GH2/GO2 hydrogen-rich perburner and a GH2/GO2 oxygen-rich preburner. The injectors were the shear coaxial injector, the oxidizer post expansion coaxial injector, the fuel impinging coaxial injector, the central body coaxial injector, and the shear tri-coaxial injector. The characteristic velocity efficiency and the combustor＇s wall temperatures were obtained for different design parameters through the experiments. It can be con- cluded that angles of the oxidizer post expansion and the fuel impinging have little influence on the combustion performance and the wall temperatures. The contact area between fuel and oxidizer and the mass flow rate have significant impacts on the combustion performance. The shear tri-coaxial injector has the best combustion performance but also the highest wall temperatures among the five types of injectors.     

针栓式喷注单元雾化角模型分析

为了实现不同径向孔形的针栓式喷注器雾化角的准确预测，从动量守恒方程出发建立了液膜撞击液膜和液膜撞击液束的雾化角理论修正模型。对于液膜撞击液膜的喷注单元，模型中通过理论推导引入了2个变形因子，将撞击的几何变形效应与雾化角关联；对于液膜撞击液束，通过引入阻塞率定义有效撞击动量比，同时将液束入口孔形的影响隐含考虑在变形因子中，最后根据高速摄影试验结果和数值仿真结果获得了对应的变形因子组合系数，使得新的雾化角模型适应性更广、准确性更高。结果表明：引入变形因子和阻塞率的理论模型预测值与试验及数值仿真结果吻合很好；对于液膜撞击液膜，变形因子基本维持在0.9~1.1，根据试验结果及仿真结果，变形因子推荐值为C₁=0.99和C₂=1.06；对于液膜撞击液束，变形因子推荐值为C₁=0.75和C₂=1.25。该模型根据实际出口的轴向动量和合成总动量计算雾化角，隐含考虑了撞击作用造成的影响，较根据撞击前入口的轴向动量和合成总动量计算雾化角的常用模型预测值准确度显著提高，为针栓式喷注器的理论研究和工程设计提供了重要参考。     

A high-fidelity design methodology using LES-based simulation and POD-based emulation: A case study of swirl injectors

Engineering design is undergoing a paradigm shift from design for performance to design for affordability, operability, and durability, seeking multi-objective optimization. To facilitate this transformation, significantly extended design freedom and knowledge must be available in the early design stages. This paper presents a high-fidelity framework for design and optimization of the liquid swirl injectors that are widely used in aerospace propulsion and power-generation systems. The framework assembles a set of techniques, including Design Of Experiment (DOE), high-fidelity Large Eddy Simulations (LES), machine learning, Proper Orthogonal Decomposition (POD)-based Kriging surrogate modeling (emulation), inverse problem optimization, and uncertainty quantification. LES-based simulations can reveal detailed spatiotemporal evolution of flow structures and flame dynamics in a high-fidelity manner, and identify important injector design parameters according to their effects on propellant mixing, flame stabilization, and thermal protection. For a given a space of design parameters, DOE determines the number of design points to perform LES-based simulations. POD-based emulations, trained by the LES database, can effectively explore the design space and deduce an optimal group of design parameters in a turn-around time that is reduced by three orders of magnitude. The accuracy of the emulated results is validated, and the uncertainty of prediction is quantified. The proposed design methodology is expected to profoundly extend the knowledge base and reduce the cost for initial design stages.     

强迫扰动下的射流撞击雾化特性

为全面把握撞击式喷嘴的工作特性，进一步认识雾化在燃烧不稳定中所起的作用，采用试验结合数值模拟的方法开展了强迫扰动条件下撞击式喷嘴的非稳态雾化特性研究。试验方面，采用水力扰动装置产生喷前压力扰动，由脉动压力传感器记录喷前的脉动压力，由高速摄影对动态的喷雾场进行背光拍摄。数值模拟则是基于开源程序Gerris开展，通过给定周期性变化的速度入口来模拟前端压力扰动下的撞击雾化过程。首先验证了建立的数值模拟方案处理非稳态雾化的有效性，其次将自然雾化与强迫扰动雾化进行对比，分析了强迫扰动条件下的撞击雾化特性，最后研究了扰动频率与扰动幅值对于撞击雾化的影响。结果表明：强迫扰动下的射流撞击喷雾场出现了弓形液滴群局部聚集的现象，并且在时间上表现出周期性特征，雾化频率与强迫扰动的频率一致。在研究的频率范围（1 257~3 563 Hz）内，撞击式喷嘴的雾化对扰动都有响应。扰动频率主要影响相邻弓形液滴群之间的间距以及雾场与扰动压力之间的相位关系，扰动幅值则主要影响雾化Klystron效应的强度。随着扰动幅值的增大，液膜的破碎长度减小，撞击点下游的流量特性由线性向非线性转变，由正弦波形转变为陡峭前缘波形。     

注气离心喷嘴喷注过程稳定性试验

为了解管路注气对补燃循环液氧煤油发动机预燃室煤油离心喷嘴喷注过程稳定性的影响，在大气环境下开展了敞口型离心喷嘴注气时喷注过程稳定性试验。使用注气装置在离心喷嘴的上游供应管路中注入空气，通过高速相机记录管路内的两相流特征和喷嘴喷注过程的振荡特征，采用图像区域亮度分析方法定量评估喷注过程的振荡强度。研究发现：注气能显著改变敞口型离心喷嘴的喷注雾化过程及稳定性特征；注气后雾化液膜破碎距离缩短且喷雾角减小，喷注过程出现明显的振荡并伴随Klystron效应；管路内两相流的气泡尺度较大且切向孔较小时，喷注过程的振荡幅值较大；随着注气量增加，喷注过程的振荡频率降低；气泡尺度及两相流型对离心喷嘴喷注振荡过程的影响与普通气泡雾化喷嘴的显著不同，柱状流型时离心喷嘴喷注过程出现1~3 Hz流量振荡且可能间歇性断流。气泡对切向孔的间歇性堵塞作用可能是喷注过程振荡及Klystron效应的原因。     

直射式喷嘴跨流喷射的雾化特性试验研究

 应用Malvern激光测雾仪在气流速度50～150m/s,供油压力（1.1～4.2）×10⁶Pa,喷嘴直径0.5～0.9mm,喷嘴下游距离60～250mm参数范围内对直射式喷嘴跨流喷射的雾化特性进行了研究。根据试验结果得出了相应的经验关系。     

圆排波瓣圆柱混合管的气动特性实验研究

建立了实验装置,对圆排波瓣喷管与８只圆柱混合管相配合,进行了冷热态实验。得出了它们引射混合的引射流量比随主次流温度比、混合管截面比、次流进口截面比的变化关系曲线。另外,还对不同温度下修正流量比的温度指数进行了研究,得出圆排波瓣圆柱混合管引射混合器的修正流量比温度指数ｎ＝０．４。