首页|期刊导航|航空学报|基于性能数字孪生的航空发动机性能衰退实时监测与评估方法

基于性能数字孪生的航空发动机性能衰退实时监测与评估方法OA

Real-time monitoring and evaluation method for aero-engine performance degradation based on performance digital twin

中文摘要英文摘要

为实现航空发动机实时性能监测及衰退评估,提出了一种基于性能数字孪生的航空发动机性能衰退实时监测与评估方法.基于长短期记忆循环神经网络(LSTM)并结合发动机物理实体结构设计,搭建性能数字孪生模型架构,利用某发动机初始飞行架次飞参数据构建性能数字孪生基线模型.模型能够高精度模拟未衰退发动机在不同飞行工况下的性能.通过将发动机实时工况和飞行状态参数输入至基线模型,模拟未衰退发动机在当前运行工况下的实时性能.模拟结果与实际传感器数据对比,即可评估发动机当前性能衰退情况.在185架次飞行案例中,使用前3架次飞参数据构建基线模型并进行精度验证.结果显示模型对转速、压力、温度的预测平均绝对相对误差低于 0.98%、0.94%、1.89%,单点预测时间不大于0.14 ms,基线模型对发动机性能的实时孪生可靠.该方法的衰退评估结果与传统方法吻合良好,展现了显著的可行性和优势.

To enable real-time performance monitoring and degradation assessment of aircraft engines,a digital-twin-based methodology for real-time monitoring and evaluation of engine performance degradation is proposed.A perfor-mance digital twin architecture was designed and implemented by integrating Long Short-Term Memory(LSTM)recur-rent neural networks with the engine's physical structural configuration.Baseline models of the performance digital twin were established using flight parameter data from the initial operational flights of an engine.The model demon-strates high-fidelity simulation capabilities for replicating the engine's performance across diverse flight conditions.By feeding real-time operational parameters and flight state data into the baseline model,the real-time performance met-rics of a pristine(non-degraded)engine under current operating conditions are simulated.Comparative analysis be-tween simulated outputs and actual sensor measurements enables quantitative assessment of the engine's instanta-neous performance degradation.A case study involving 185 flight cycles validated the framework:Baseline models constructed from the first three flights achieved mean absolute relative errors below 0.98%,0.94%,and 1.89%for ro-tational speed,pressure,and temperature predictions,respectively,with single-point inference time under 0.14 milli-seconds,confirming the reliability of real-time digital twinning.The degradation assessment results of this method align well with traditional methods,demonstrating significant feasibility and advantages.

王栋欢;金海;万东凯;王军;肖洪

中国航发沈阳发动机研究所,沈阳 110015||西北工业大学 动力与能源学院,西安 710072中国航发沈阳发动机研究所,沈阳 110015中国航发沈阳发动机研究所,沈阳 110015中国航发沈阳发动机研究所,沈阳 110015西北工业大学 动力与能源学院,西安 710072

航空航天

航空发动机数字孪生性能监测衰退评估LSTM架构驱动

aero-enginedigital twinperformance monitoringdegradation assessmentLSTMarchitecture-driven

《航空学报》 2026 (5)

55-69,15

国家级项目省部级项目 National Level ProjectProvincial or Ministerial Level Project

10.7527/S1000-6893.2025.32459

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