Enabling the Potential of Hybrid Electric Propulsion Through Lean-Burn-Combustion Turbofans

IF 1.1 Q4 ENGINEERING, MECHANICAL
Stavros Vouros, Mavroudis D. Kavvalos, Smruti Sahoo, K. Kyprianidis
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引用次数: 1

Abstract

Hybrid-electric propulsion has emerged as a promising technology to mitigate the adverse environmental impact of civil aviation. Boosting conventional gas turbines with electric power improves mission performance and operability. In this work the impact of electrification on pollutant emissions and direct operating cost of geared turbofan configurations is evaluated for an 150-passenger aircraft. A baseline two-and-a-half-shaft geared turbofan, representative of year 2035 entry-into-service technology, is employed. Parallel hybridization is implemented through coupling a battery-powered electric motor to the engine low-speed shaft. A multi-disciplinary design space exploration framework is employed comprising modelling methods for multi-point engine design, aircraft sizing, performance and pollutant emissions, mission and economic analysis. A probabilistic approach is developed considering uncertainties in the evaluation of direct operating cost. Sensitivities to electrical power system technology levels, as well as fuel price and emissions taxation are quantified at different time-frames. The benefits of lean direct injection are explored along short-, medium-, and long-range missions, demonstrating 32% NOx savings compared to traditional rich-burn, quick-mix, lean-burn technologies in short-range operations. The impact of electrification on the enhancement of lean direct injection benefits is investigated. For hybrid-electric powerplants, the take-off-to-cruise turbine entry temperature ratio is 2.5% lower than the baseline, extending the corresponding NOx reductions to the level of 46% in short-range missions. This work sheds light on the environmental and economic potential and limitations of a hybrid-electric propulsion concept towards a greener and sustainable civil aviation.
通过稀薄燃烧涡轮风扇实现混合电力推进的潜力
混合动力电力推进已经成为一种很有前途的技术,可以减轻民航对环境的不利影响。用电力推动传统燃气轮机可以提高任务性能和可操作性。在这项工作中,对150架客机的齿轮传动涡扇配置的电气化对污染物排放和直接运行成本的影响进行了评估。采用了代表2035年投入使用技术的基准两轴半齿轮涡扇发动机。并联杂交是通过将电池供电的电动机连接到发动机低速轴来实现的。采用多学科设计空间探索框架,包括多点发动机设计、飞机尺寸、性能和污染物排放、任务和经济分析的建模方法。考虑到直接运营成本评估中的不确定性,开发了一种概率方法。对电力系统技术水平以及燃料价格和排放税的敏感性在不同的时间框架内进行量化。在短期、中期和长期任务中探索了贫直接喷射的好处,表明在短期操作中,与传统的富燃、快速混合、贫燃技术相比,可节省32%的NOx。研究了通电对提高贫直接喷射效益的影响。对于混合动力发电厂,起飞与巡航涡轮机的入口温度比比基线低2.5%,将短程任务中相应的氮氧化物减少量提高到46%。这项工作揭示了混合电力推进概念在环境和经济方面的潜力和局限性,以实现更环保、可持续的民用航空。
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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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