机构地区:[1]清华大学航天航空学院,热科学与动力工程教育部重点实验室,北京100084
出 处:《清华大学学报(自然科学版)》2024年第5期841-851,共11页Journal of Tsinghua University(Science and Technology)
基 金:国家科技重大专项(2019-III-0001-0044)。
摘 要:热回油是提高飞行器燃油热管理系统性能的重要途径。为研究多温度限制点条件下燃油热管理系统的热回油特性,该文基于Python语言自主开发了燃油热管理系统稳态仿真模型,并进行了实验验证。首先分析了热回油流量对各温度限制点温度的影响规律,结果表明热回油流量的增加并不一定使得全部温度限制点的温度均下降,甚至导致了供油箱出口温度和热回油阀出口温度的升高,这说明过大或过小的热回油流量均可能引发燃油热管理系统的失效,热回油流量存在满足温度限制要求的变化区间。对于飞机热载荷加热器出口温度和燃油喷嘴出口温度,存在热回油临界流量,当热回油流量达到临界值时,进一步增加热回油会提升系统超温的风险。随后探究了热回油作用下系统的飞机热载荷极限,发现飞机热载荷极限对应于热回油流量限制区间的大小突变为0的临界状态,且此时限制区间的下界是系统的热回油临界流量。进一步研究发现,当飞机热载荷加热器出口温度和燃油喷嘴出口温度在极限状态下同时达到各自的限制值时,系统达到正常工作时的总热载荷极限。为了充分利用系统的总热载荷极限,该文提出了可以实现系统热载荷之间相互传递的中间回路并给出了潜在方案,为飞发一体化热管理提供了一种优化途径。[Objective]With the rapid increase in aircraft thermal loads and the flight Mach number,combustion fuel and ram air can no longer effectively cool the fuel thermal management system(FTMS).Recently,hot fuel return has become an important way to enhance the cooling capacity of the FTMS,and the regulation of the hot fuel return flow has garnered significant attention.However,the impact of the hot fuel return flow on the limited temperatures still requires systematic research,and the thermal load limits of the FTMS have not been explored.Therefore,in this study,the hot fuel return characteristics of the FTMS with multiple temperature limit points were investigated to improve system performance.Considering the scalability of the models,a steady-state simulation model for the FTMS was developed using Python based on the thermal fluid network method and solved using the damped Newton method to guarantee the convergence of the flow and heat transfer iterations.In addition,the program was verified via experiments to guarantee its accuracy.A complete FTMS flow path was designed,and a standard condition was set for subsequent calculations.First,the temperature variations of the temperature limit points with the hot fuel return flow were calculated under the standard condition.Subsequently,by increasing the airborne thermal load under the standard condition,the maximum airborne thermal load that the system can withstand under the action of the hot fuel return(airborne thermal load limit)was investigated,and the occurrence condition of the limit state was analyzed.Lastly,the maximum total thermal load for normal operations(total thermal load limit)was explored under the standard condition,and the condition for reaching the total thermal load limit was discussed by changing the aeroengine thermal load.The increase of the hot fuel return flow may not decrease all the limited temperatures,even inducing the outlet temperature rises of the fuel tank and the hot fuel return valve.Excessive or insufficient hot fuel return flow may r
关 键 词:热管理系统 温度限制 热回油 热载荷极限 数值模拟 燃油
分 类 号:V233.2[航空宇航科学与技术—航空宇航推进理论与工程]
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