优化汽轮发电机的混合动力应用

C. Heathco
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引用次数: 1

摘要

分布式电力推进技术的进步带来了一系列新的eVTOL设计,包括倾斜旋翼、倾斜机翼和导管风扇。所有这些系统都提出了一个共同的挑战,即满足推进器的电力需求。混合动力驱动将发动机驱动的发电机与电池结合起来,以解决仅使用电池的所有电力驱动的范围和有效载荷限制。目前考虑的混合动力系统依赖于传统的汽油、柴油和涡轮发动机。燃气轮机提供特殊的能量密度,但燃油效率低于活塞发动机。两项技术,热回收和动力传输,可以纳入燃气轮机显著提高燃油效率。New Centerline Design公司对采用基于涡轮的混合动力系统的eVTOL飞机进行了参数化贸易研究,以量化热回收和动力传输对eVTOL有效载荷和航程的好处。研究结果表明,具有动力传输的热回收燃气轮机是下一代eVTOL混合动力推进系统的优秀候选者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimizing Turbogenerators for Hybrid-Electric Applications
Advancements in distributed electric propulsion have given rise to a wide array of new eVTOL designs featuring tilt rotors, tilt wings and ducted fans. All of these systems pose a common challenge, meeting the electrical power demands of the propulsors. Hybrid-electric drives which combine an engine driven generator with batteries are being pursued to address the range and payload limitations of all electric drives using only batteries. The hybrid systems currently being considered rely on traditional gasoline, diesel, and turbine engines. Gas turbines offer exceptional energy density but are less fuel efficient than piston engines. Two technologies, heat recovery and power transfer, can be incorporated into the gas turbine to significantly improve fuel efficiency. New Centerline Design has conducted parametric trade studies on eVTOL aircraft with turbine based hybrid-electric systems to quantify the benefits that heat recovery and power transfer will have on eVTOL payload and range. The results of this study show that heat recovered gas turbines with power transfer are excellent candidates for next generation eVTOL hybrid-electric propulsion systems.
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