英里
汽车工程
电池(电)
有效载荷(计算)
航程(航空)
环境科学
练习场
吨
电池容量
电动汽车
能源消耗
功率(物理)
计算机科学
运输工程
航空学
航空航天工程
工程类
电气工程
网络数据包
物理
废物管理
量子力学
计算机网络
天文
作者
Shashank Sripad,Venkatasubramanian Viswanathan
标识
DOI:10.1073/pnas.2111164118
摘要
Improvements in rechargeable batteries are enabling several electric urban air mobility (UAM) aircraft designs with up to 300 mi of range with payload equivalents of up to seven passengers. Novel UAM aircraft consume between 130 Wh/passenger-mi and ∼ 1,200 Wh/passenger-mi depending on the design and utilization, compared to an expected consumption of over 220 Wh/passenger-mi and 1,000 Wh/passenger-mi for terrestrial electric vehicles and combustion engine vehicles, respectively. We also find that several UAM aircraft designs are approaching technological viability with current Li-ion batteries, based on the specific power and energy, while rechargeability and lifetime performance remain uncertain. These aspects highlight the technological readiness of a new segment of transportation.
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