Preliminary Design of Integrated Partial Turboelectric Aircraft Propulsion Systems

IF 1.1 Q4 ENGINEERING, MECHANICAL
M. Pohl, J. Köhler, H. Kellermann, Michael Lüdemann, Daniel Weintraub, P. Jeschke, M. Hornung
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引用次数: 1

Abstract

This paper presents a novel tool for the modeling of partial turboelectric propulsion systems together with a corresponding case study for a commercial single-aisle aircraft. In order to reduce the environmental impact of air traffic, radically new aircraft and propulsion concepts with a high market penetration are needed. Partial turboelectric propulsion systems seem to offer a promising option to achieve this. For the development of these propulsion systems, a preliminary design tool with a homogeneous and sufficiently high fidelity, both for turbomachinery and electric components, is needed. To address this, the authors of this publication have developed a tool based on the GasTurb software. The models developed, in particular for the electric components which together form the electric powertrain, are described here. In the case study, which demonstrates the coupling of the developed tool with an aircraft design environment, a conventional turboprop baseline aircraft is compared to a derived aircraft which features a partial turboelectric propulsion system with wingtip propellers. The latter are intended to reduce the induced drag, enabling a reduction of the aircraft's total shaft power demand compared to the conventional baseline aircraft. The comparison between the partial turboelectric aircraft and the baseline aircraft indicates that fuel reduction increases with power split. However, primarily increasing electric powertrain masses and a stagnating drag reduction result in lower additional fuel reductions for higher power splits. Despite these conclusions, the predicted induced drag reductions need further refinement as they were found to be optimistic. In summary, this publication presents a methodology and a set of physics-based component models for the preliminary design of partial turboelectric propulsion systems, so that the electric components can be investigated and optimized at the same high level of detail as the gas turbine.
部分涡电一体化飞机推进系统初步设计
本文提出了一种用于部分涡轮电力推进系统建模的新工具,并对商用单通道飞机进行了相应的案例研究。为了减少空中交通对环境的影响,需要具有高市场渗透率的全新飞机和推进概念。部分涡轮电力推进系统似乎为实现这一目标提供了一个有希望的选择。对于这些推进系统的开发,需要一个具有均匀性和足够高保真度的初步设计工具,用于涡轮机械和电气部件。为了解决这个问题,本出版物的作者开发了一个基于GasTurb软件的工具。开发的模型,特别是为共同构成电动动力系统的电气部件,在这里进行了描述。在案例研究中,演示了开发的工具与飞机设计环境的耦合,将传统涡桨基线飞机与具有部分涡轮电力推进系统和翼尖螺旋桨的衍生飞机进行了比较。后者旨在减少诱导阻力,与传统基线飞机相比,能够减少飞机的总轴功率需求。部分涡轮电动飞机与基线飞机的对比表明,随着功率分配的增加,燃油减少量增加。然而,主要是增加电力传动系统的质量和停滞不前的阻力减少导致更低的额外燃油减少,更高的功率分割。尽管得出了上述结论,但由于预测结果过于乐观,因此还需要进一步改进。总之,本出版物提出了一种方法和一套基于物理的部件模型,用于部分涡轮电力推进系统的初步设计,以便电气部件可以在与燃气轮机相同的高细节水平上进行研究和优化。
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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来源期刊
Journal of the Global Power and Propulsion Society
Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
8 weeks
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