Electric Propulsion Architecture Assessment via Signomial Programming

2018 AIAA/IEEE Electric Aircraft Technologies Symposium (EATS) Pub Date : 2018-07-08 DOI:10.2514/6.2018-5026

Aidan Dowdle, D. K. Hall, J. Lang

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引用次数: 11

Abstract

This paper presents the application of signomial programming to the assessment and multidisciplinary optimization of electric propulsion systems. Analytic models for electrical and mechanical propulsion system components are developed that are compatible with the signo-mial programming objective and constraint forms. These models capture the dependence of mass and efficiency on material properties and operating conditions. Standalone optimization of the electrical cable and motor model illustrates a trade-off between mass and efficiency at the component level. These component models are subsequently integrated into various propulsion architectures and are optimized while taking into account the component dependencies (e.g., fan and motor shaft speed). Specifically, turbofan, turboelectric and geared turboelectric propulsion architectures are optimized on the metrics of fuel consumption and propulsion system mass. The results show that the optimal component masses and efficiencies depend on the propulsion architecture, operating point, and performance metric under consideration, and that signomial programming is useful for determining them.

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基于信号编程的电力推进结构评估

本文介绍了信号规划在电力推进系统评估和多学科优化中的应用。建立了与符号规划目标和约束形式相适应的机电推进系统部件分析模型。这些模型反映了质量和效率对材料特性和操作条件的依赖性。电缆和电机模型的独立优化说明了组件级质量和效率之间的权衡。这些组件模型随后被集成到各种推进架构中，并在考虑组件依赖性(例如风扇和电机轴转速)的同时进行优化。具体而言，根据油耗和推进系统质量指标对涡扇、涡电和齿轮传动涡电推进架构进行了优化。结果表明，最优的部件质量和效率取决于所考虑的推进结构、工作点和性能指标，并且符号编程可以用于确定它们。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 AIAA/IEEE Electric Aircraft Technologies Symposium (EATS)

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