NASA Puffin Electric Tailsitter VTOL Concept

机译：美国航空航天局海鹦电Tailsitter VTOL概念

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Electric propulsion offers dramatic new vehicle mission capabilities, not possible with turbine or reciprocating engines; including high reliability and efficiency, low engine weight and maintenance, low cooling drag and volume required, very low noise and vibration, and zero emissions. The only penalizing characteristic of electric propulsion is the current energy storage technology level, which is set to triple over the next 5-10 years through huge new investments in this field. Most importantly, electric propulsion offers incredible new degrees of freedom in aircraft system integration to achieve unprecedented levels of aerodynamic, propulsive, control, and structural synergistic coupling. A unique characteristic of electric propulsion is that the technology is nearly scale-free, permitting small motors to be parallelized for fail-safe redundancy, or distributed across the airframe for tightly coupled interdisciplinary functionality without significant impacts in motor-controller efficiency or specific weight. Maximizing the potential benefit of electric propulsion is dependent on applying this technology to synergistic mission concepts. The vehicle missions with the most benefit include those which constrain environmental impact (or limit noise, exhaust, or emission signatures) are short range, or where large differences exist in the propulsion system sizing between takeoff and cruise conditions. Electric propulsion offers the following unique capabilities that other propulsion systems can't provide for short range Vertical Takeoff and Landing (VTOL) aircraft; elimination of engine noise and emissions, drastic reduction in engine cooling and radiated heat, drastic reduction in vehicle vibration levels, drastic improvement in reliability and operating costs, variable speed output at full power, for improved cruise efficiency at low tip-speed, elimination of high/hot sizing penalty, and reduction of engine-out penalties.

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作者
Moore, M. D.;
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年度 2010
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Electric propulsion ; Propulsion system performance ; Reliability ; Energy storage ; Vertical takeoff aircraft ; Power efficiency ; Aerodynamics ; Operating costs ; Vertical landing ; Maintenance;

机译：电力推进;推进系统性能;可靠性;能量存储;垂直起飞飞机;电力效率;空气动力学;运行成本;垂直着陆;维护;

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1. CONNECTED VEHICLES: AERO: Hyundai, Uber show electric VTOL air-taxi concept [J] . Bill Visnic Automotive engineering . 2020,第2期

机译：连通车辆：Aero：现代，优步展示电动vtol air-taxi概念
2. The Joby S2 VTOL Concept: Exploring the New Degrees of Design Freedom of Distributed Electric Propulsion [J] . Mark Moore Vertiflite . 2014,第6期

机译：Joby S2 VTOL概念：探索分布式电力推进设计的新自由度
3. NASA tests electric airplane concepts [J] . ALTON K. MARSH AOPA pilot . 2015,第6期

机译：NASA测试电动飞机概念
4. NASA Puffin Electric Tailsitter VTOL Concept [C] . Mark D. Moore AIAA aviation technology, integration and operations conference;ATIO . 2011

机译：美国宇航局海雀电动挂尾机VTOL概念
5. A study of the energy efficiencies of the NASA Reference System and SPS 2000 System Solar Power Satellite concepts [D] . Dicesare, Joseph Anthony 2000

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7. NASA Puffin Electric Tailsitter VTOL Concept [O] . Moore Mark D. 2010

机译：美国宇航局海雀电动挂尾机VTOL概念

NASA Puffin Electric Tailsitter VTOL Concept

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